Provide accurate value of RatedInletAirHumRat in DXCoils

src/EnergyPlus/Coils/CoilCoolingDXCurveFitOperatingMode.cc

@@ -163,7 +163,7 @@ void CoilCoolingDXCurveFitOperatingMode::size(EnergyPlusData &state)
     ReportSizingManager::RequestSizing(state, CompType, CompName, SizingMethod, SizingString, TempSize, PrintFlag, RoutineName);
     this->ratedEvapAirFlowRate = TempSize;
     Real64 const ratedInletAirTemp(26.6667);        // 26.6667C or 80F
-    Real64 const ratedInletAirHumRat(0.01125);      // Humidity ratio corresponding to 80F dry bulb/67F wet bulb
+    Real64 const ratedInletAirHumRat(0.0111847); // Humidity ratio corresponding to 80F dry bulb/67F wet bulb
     this->ratedEvapAirMassFlowRate = this->ratedEvapAirFlowRate * Psychrometrics::PsyRhoAirFnPbTdbW(
             DataEnvironment::StdBaroPress, ratedInletAirTemp, ratedInletAirHumRat, RoutineName);
 

src/EnergyPlus/Coils/CoilCoolingDXCurveFitSpeed.cc

@@ -265,8 +265,8 @@ CoilCoolingDXCurveFitSpeed::CoilCoolingDXCurveFitSpeed(const std::string& name_t
 
       // rating data
       RatedInletAirTemp(26.6667),        // 26.6667C or 80F
-      RatedInletWetBulbTemp(19.44),      // 19.44 or 67F
-      RatedInletAirHumRat(0.01125),      // Humidity ratio corresponding to 80F dry bulb/67F wet bulb
+      RatedInletWetBulbTemp(19.4444),      // 19.44 or 67F
+      RatedInletAirHumRat(0.0111847),   // Humidity ratio corresponding to 80F dry bulb/67F wet bulb
       RatedOutdoorAirTemp(35.0),         // 35 C or 95F
       DryCoilOutletHumRatioMin(0.00001) // dry coil outlet minimum hum ratio kgH2O/kgdry air
 

src/EnergyPlus/Coils/CoilCoolingDXCurveFitSpeed.hh

@@ -139,8 +139,8 @@ struct CoilCoolingDXCurveFitSpeed
 
     // rating data
     Real64 RatedInletAirTemp = 26.6667;        // 26.6667C or 80F
-    Real64 RatedInletWetBulbTemp = 19.44;    // 19.44 or 67F
-    Real64 RatedInletAirHumRat = 0.01125;      // Humidity ratio corresponding to 80F dry bulb/67F wet bulb
+    Real64 RatedInletWetBulbTemp = 19.4444;    // 19.44 or 67F
+    Real64 RatedInletAirHumRat = 0.0111847;    // Humidity ratio corresponding to 80F dry bulb/67F wet bulb
     Real64 RatedOutdoorAirTemp = 35.0;      // 35 C or 95F
     Real64 DryCoilOutletHumRatioMin = 0.00001; // dry coil outlet minimum hum ratio kgH2O/kgdry air
 

src/EnergyPlus/ReportSizingManager.cc

@@ -423,7 +423,7 @@ namespace ReportSizingManager {
         Array1D<Real64> Par(4);                    // array passed to RegulaFalsi
         std::string ScalableSM;                    // scalable sizing methods label for reporting
         Real64 const RatedInletAirTemp(26.6667);   // 26.6667C or 80F
-        Real64 const RatedInletAirHumRat(0.01125); // Humidity ratio corresponding to 80F dry bulb/67F wet bulb
+        Real64 const RatedInletAirHumRat(0.0111847); // Humidity ratio corresponding to 80F dry bulb/67F wet bulb
 
         std::string DDNameFanPeak;   // Name of the design day that produced the Peak
         std::string dateTimeFanPeak; // A String representing the DateTime of the Peak

src/EnergyPlus/VariableSpeedCoils.cc

@@ -117,14 +117,14 @@ namespace VariableSpeedCoils {
     // MODULE PARAMETER DEFINITIONS
 
     Real64 const RatedInletAirTemp(26.6667);     // 26.6667C or 80F
-    Real64 const RatedInletWetBulbTemp(19.44);   // 19.44 or 67F, cooling mode
-    Real64 const RatedInletAirHumRat(0.01125);   // Humidity ratio corresponding to 80F dry bulb/67F wet bulb
-    Real64 const RatedInletWaterTemp(29.4);      // 85 F cooling mode
+    Real64 const RatedInletWetBulbTemp(19.4444);   // 19.44 or 67F, cooling mode
+    Real64 const RatedInletAirHumRat(0.0111847); // Humidity ratio corresponding to 80F dry bulb/67F wet bulb
+    Real64 const RatedInletWaterTemp(29.4444);      // 85 F cooling mode
     Real64 const RatedAmbAirTemp(35.0);          // 95 F cooling mode
-    Real64 const RatedInletAirTempHeat(21.11);   // 21.11C or 70F, heating mode
-    Real64 const RatedInletWaterTempHeat(21.11); // 21.11C or 70F, heating mode
-    Real64 const RatedAmbAirTempHeat(8.33);      // 8.33 or 47F, heating mode
-    Real64 const RatedAmbAirWBHeat(6.11);        // 8.33 or 43F, heating mode, rated wet bulb temperature
+    Real64 const RatedInletAirTempHeat(21.1111);   // 21.11C or 70F, heating mode
+    Real64 const RatedInletWaterTempHeat(21.1111); // 21.11C or 70F, heating mode
+    Real64 const RatedAmbAirTempHeat(8.3333);      // 8.33 or 47F, heating mode
+    Real64 const RatedAmbAirWBHeat(6.1111);        // 8.33 or 43F, heating mode, rated wet bulb temperature
 
     // Water Systems
     int const CondensateDiscarded(1001); // default mode where water is "lost"

tst/EnergyPlus/unit/DXCoils.unit.cc

@@ -56,21 +56,21 @@
 #include "Fixtures/SQLiteFixture.hh"
 #include <EnergyPlus/CurveManager.hh>
 #include <EnergyPlus/DXCoils.hh>
+#include <EnergyPlus/Data/EnergyPlusData.hh>
 #include <EnergyPlus/DataAirLoop.hh>
 #include <EnergyPlus/DataAirSystems.hh>
 #include <EnergyPlus/DataEnvironment.hh>
 #include <EnergyPlus/DataHeatBalance.hh>
 #include <EnergyPlus/DataSizing.hh>
 #include <EnergyPlus/General.hh>
-#include <EnergyPlus/Data/EnergyPlusData.hh>
-#include <EnergyPlus/OutputProcessor.hh>
 #include <EnergyPlus/NodeInputManager.hh>
 #include <EnergyPlus/OutAirNodeManager.hh>
 #include <EnergyPlus/OutputFiles.hh>
+#include <EnergyPlus/OutputProcessor.hh>
 #include <EnergyPlus/OutputReportPredefined.hh>
+#include <EnergyPlus/OutputReportTabular.hh>
 #include <EnergyPlus/Psychrometrics.hh>
 #include <EnergyPlus/ScheduleManager.hh>
-#include <EnergyPlus/OutputReportTabular.hh>
 
 using namespace EnergyPlus;
 using namespace DXCoils;
@@ -1498,8 +1498,8 @@ TEST_F(EnergyPlusFixture, DXCoil_ValidateADPFunction)
                                     DXCoil(1).RatedSHR(1),
                                     true);
 
-    EXPECT_NEAR(0.788472, DXCoil(1).RatedSHR(1), 0.0000001);
-    EXPECT_NEAR(0.0003944, CBF_calculated, 0.0000001);
+    EXPECT_NEAR(0.792472, DXCoil(1).RatedSHR(1), 0.0000001);
+    EXPECT_NEAR(0.00213735, CBF_calculated, 0.0000001);
 
     DXCoil(1).RatedTotCap(1) = 35000.0; // simulate outlet condition right at the saturation curve
     DXCoil(1).RatedSHR(1) = AutoSize;
@@ -1514,8 +1514,8 @@ TEST_F(EnergyPlusFixture, DXCoil_ValidateADPFunction)
                              DXCoil(1).RatedSHR(1),
                              true);
 
-    EXPECT_NEAR(0.67608322, DXCoil(1).RatedSHR(1), 0.0000001);
-    EXPECT_NEAR(0.0003243, CBF_calculated, 0.0000001);
+    EXPECT_NEAR(0.67908322, DXCoil(1).RatedSHR(1), 0.0000001);
+    EXPECT_NEAR(0.00298921, CBF_calculated, 0.0000001);
 
     DXCoil(1).RatedTotCap(1) = 40000.0; // reverse perturb SHR (i.e., decrease SHR), CalcCBF would have failed with RH >= 1.0
     DXCoil(1).RatedSHR(1) = AutoSize;
@@ -1530,8 +1530,8 @@ TEST_F(EnergyPlusFixture, DXCoil_ValidateADPFunction)
                              DXCoil(1).RatedSHR(1),
                              true);
 
-    EXPECT_NEAR(0.64408322, DXCoil(1).RatedSHR(1), 0.0000001);
-    EXPECT_NEAR(0.0028271, CBF_calculated, 0.0000001);
+    EXPECT_NEAR(0.64708322, DXCoil(1).RatedSHR(1), 0.0000001);
+    EXPECT_NEAR(0.00252307, CBF_calculated, 0.0000001);
 }
 
 TEST_F(EnergyPlusFixture, TestMultiSpeedCoolingCrankcaseOutput)
@@ -2267,10 +2267,11 @@ TEST_F(SQLiteFixture, DXCoils_TestComponentSizingOutput_TwoSpeed)
     const std::string compName = DXCoils::DXCoil(1).Name;
     EXPECT_EQ(compName, "MAIN COOLING COIL 1");
 
-    struct TestQuery {
+    struct TestQuery
+    {
         TestQuery(std::string t_description, std::string t_units, Real64 t_value)
             : description(t_description), units(t_units), expectedValue(t_value),
-              displayString("Description='" + description + "'; Units='" + units + "'") {};
+              displayString("Description='" + description + "'; Units='" + units + "'"){};
 
         const std::string description;
         const std::string units;
@@ -2286,13 +2287,17 @@ TEST_F(SQLiteFixture, DXCoils_TestComponentSizingOutput_TwoSpeed)
         TestQuery("Design Size Low Speed Evaporative Condenser Pump Rated Power Consumption", "W", lowSpeedCondPumpPower),
     });
 
-    for (auto& testQuery : testQueries) {
+    for (auto &testQuery : testQueries) {
 
         std::string query("SELECT Value From ComponentSizes"
-                          "  WHERE CompType = '" + compType + "'"
-                          "  AND CompName = '" + compName + "'"
-                          "  AND Description = '" + testQuery.description + "'" +
-                          "  AND Units = '" + testQuery.units + "'");
+                          "  WHERE CompType = '" +
+                          compType +
+                          "'"
+                          "  AND CompName = '" +
+                          compName +
+                          "'"
+                          "  AND Description = '" +
+                          testQuery.description + "'" + "  AND Units = '" + testQuery.units + "'");
 
         // execAndReturnFirstDouble returns -10000.0 if not found
         Real64 return_val = SQLiteFixture::execAndReturnFirstDouble(query);
@@ -2479,10 +2484,11 @@ TEST_F(SQLiteFixture, DXCoils_TestComponentSizingOutput_SingleSpeed)
     const std::string compName = DXCoils::DXCoil(1).Name;
     EXPECT_EQ(compName, "FURNACE ACDXCOIL 1");
 
-    struct TestQuery {
+    struct TestQuery
+    {
         TestQuery(std::string t_description, std::string t_units, Real64 t_value)
             : description(t_description), units(t_units), expectedValue(t_value),
-              displayString("Description='" + description + "'; Units='" + units + "'") {};
+              displayString("Description='" + description + "'; Units='" + units + "'"){};
 
         const std::string description;
         const std::string units;
@@ -2496,13 +2502,17 @@ TEST_F(SQLiteFixture, DXCoils_TestComponentSizingOutput_SingleSpeed)
         TestQuery("Design Size Evaporative Condenser Pump Rated Power Consumption", "W", condPumpPower),
     });
 
-    for (auto& testQuery : testQueries) {
+    for (auto &testQuery : testQueries) {
 
         std::string query("SELECT Value From ComponentSizes"
-                          "  WHERE CompType = '" + compType + "'"
-                          "  AND CompName = '" + compName + "'"
-                          "  AND Description = '" + testQuery.description + "'" +
-                          "  AND Units = '" + testQuery.units + "'");
+                          "  WHERE CompType = '" +
+                          compType +
+                          "'"
+                          "  AND CompName = '" +
+                          compName +
+                          "'"
+                          "  AND Description = '" +
+                          testQuery.description + "'" + "  AND Units = '" + testQuery.units + "'");
 
         // execAndReturnFirstDouble returns -10000.0 if not found
         Real64 return_val = SQLiteFixture::execAndReturnFirstDouble(query);
@@ -3506,7 +3516,7 @@ TEST_F(EnergyPlusFixture, TestMultiSpeedCoilsAutoSizingOutput)
         "   1,                                      !- Maximum Value of x {BasedOnField A2}",
         "   0.7,                                    !- Minimum Curve Output {BasedOnField A3}",
         "   1;                                      !- Maximum Curve Output {BasedOnField A3}",
-        });
+    });
 
     ASSERT_TRUE(process_idf(idf_objects));
 
@@ -3558,7 +3568,7 @@ TEST_F(EnergyPlusFixture, TestMultiSpeedCoilsAutoSizingOutput)
     EXPECT_EQ("ASHP HTG COIL", DXCoil(2).Name);
     EXPECT_EQ("Coil:Heating:DX:MultiSpeed", DXCoil(2).DXCoilType);
     // set companion dx cooling coil
-    DXCoil( 2 ).CompanionUpstreamDXCoil = 1;
+    DXCoil(2).CompanionUpstreamDXCoil = 1;
     SizeDXCoil(state, 2);
     EXPECT_EQ(1.75, DXCoil(2).MSRatedAirVolFlowRate(2));
     EXPECT_EQ(0.875, DXCoil(2).MSRatedAirVolFlowRate(2) * 0.5);
@@ -3758,7 +3768,7 @@ TEST_F(EnergyPlusFixture, TestMultiSpeedCoolingCoilPartialAutoSizeOutput)
         "   0.7,                                    !- Minimum Curve Output {BasedOnField A3}",
         "   1;                                      !- Maximum Curve Output {BasedOnField A3}",
 
-        });
+    });
 
     ASSERT_TRUE(process_idf(idf_objects));
 
@@ -3843,7 +3853,6 @@ TEST_F(EnergyPlusFixture, DXCoils_GetDXCoilCapFTCurveIndexTest)
     DXCoil(2).DXCoilType_Num = CoilDX_MultiSpeedHeating;
     DXCoil(2).DXCoilType = "Coil:Heating:DX:MultiSpeed";
 
-
     for (DXCoilNum = 1; DXCoilNum <= 2; ++DXCoilNum) {
         DXCoil(DXCoilNum).NumOfSpeeds = 2;
         DXCoil(DXCoilNum).MSRatedTotCap.allocate(DXCoil(DXCoilNum).NumOfSpeeds);
@@ -3932,7 +3941,7 @@ TEST_F(EnergyPlusFixture, DXCoils_GetDXCoilCapFTCurveIndexTest)
     // dx cooling coil
     int CoilIndex = 1;
     EXPECT_EQ(DXCoil(CoilIndex).DXCoilType, "Coil:Cooling:DX:MultiSpeed");
-    DataTotCapCurveIndex = DXCoils::GetDXCoilCapFTCurveIndex( CoilIndex, ErrorsFound );
+    DataTotCapCurveIndex = DXCoils::GetDXCoilCapFTCurveIndex(CoilIndex, ErrorsFound);
     EXPECT_EQ(2, DataTotCapCurveIndex);
     // evaluate dx cooling coil curves to show impacts of incorrect curve index
     Real64 TotCapTempModFac_lowestSpeed = CurveValue(1, 19.4, 30.0);
@@ -3949,7 +3958,7 @@ TEST_F(EnergyPlusFixture, DXCoils_GetDXCoilCapFTCurveIndexTest)
     // dx heating coil
     CoilIndex = 2;
     EXPECT_EQ(DXCoil(CoilIndex).DXCoilType, "Coil:Heating:DX:MultiSpeed");
-    DataTotCapCurveIndex = DXCoils::GetDXCoilCapFTCurveIndex( CoilIndex, ErrorsFound );
+    DataTotCapCurveIndex = DXCoils::GetDXCoilCapFTCurveIndex(CoilIndex, ErrorsFound);
     EXPECT_EQ(4, DataTotCapCurveIndex);
     // evaluate dx heating coil curves to show impacts of incorrect curve index
     TotCapTempModFac_lowestSpeed = CurveValue(3, 5.0, 10.0);
@@ -3963,5 +3972,13 @@ TEST_F(EnergyPlusFixture, DXCoils_GetDXCoilCapFTCurveIndexTest)
     EXPECT_DOUBLE_EQ(8763.2701224550547, NominalHeatingDesignCapacity_lowestSpeed);
     EXPECT_DOUBLE_EQ(8945.5439208717980, NominalHeatingDesignCapacity_designSpeed);
 }
+TEST_F(EnergyPlusFixture, DXCoils_RatedInletAirWTest)
+{
+
+    Real64 Tdb = 26.6667;
+    Real64 Twet = 19.4444;
+    Real64 RatedW = Psychrometrics::PsyWFnTdbTwbPb(Tdb, Twet, 101325.0);
+    EXPECT_NEAR(RatedInletAirHumRat, RatedW, 0.000001);
+}
 
 } // namespace EnergyPlus

tst/EnergyPlus/unit/HVACUnitaryBypassVAV.unit.cc

@@ -823,7 +823,7 @@ TEST_F(CBVAVSys, UnitaryBypassVAV_NoOASys)
     HVACUnitaryBypassVAV::InitCBVAV(state, cbvavNum, FirstHVACIteration, AirLoopNum, OnOffAirFlowRatio, HXUnitOn);
     Real64 FullOutput = 0.0;
     HVACUnitaryBypassVAV::CalcCBVAV(state, cbvavNum, FirstHVACIteration, PartLoadFrac, FullOutput, OnOffAirFlowRatio, HXUnitOn);
-    EXPECT_NEAR(PartLoadFrac, 0.935, 0.001); // load = -7000 W, coil capacity = 10,000 W, SHR = 0.7 so max sensible is just over 7,000 W
+    EXPECT_NEAR(PartLoadFrac, 0.9387, 0.001); // load = -7000 W, coil capacity = 10,000 W, SHR = 0.7 so max sensible is just over 7,000 W
     EXPECT_NEAR(cbvav.OutletTempSetPoint, DataLoopNode::Node(cbvav.AirOutNode).Temp, 0.0001);
     EXPECT_NEAR(cbvav.OutletTempSetPoint, 12.771, 0.001);