CoilHeatingDXMultiSpeed::CoilHeatingDXMultiSpeed(const Model& model)
: StraightComponent(CoilHeatingDXMultiSpeed::iddObjectType(),model)
{
OS_ASSERT(getImpl<detail::CoilHeatingDXMultiSpeed_Impl>());
bool ok = true;
auto always_on = model.alwaysOnDiscreteSchedule();
ok = setAvailabilitySchedule( always_on );
OS_ASSERT(ok);
setMinimumOutdoorDryBulbTemperatureforCompressorOperation(-8.0);
ok = setCrankcaseHeaterCapacity(0.0);
OS_ASSERT(ok);
ok = setMaximumOutdoorDryBulbTemperatureforCrankcaseHeaterOperation(10.0);
OS_ASSERT(ok);
ok = setMaximumOutdoorDryBulbTemperatureforDefrostOperation(5.0);
OS_ASSERT(ok);
ok = setDefrostStrategy("Resistive");
OS_ASSERT(ok);
ok = setDefrostControl("OnDemand");
OS_ASSERT(ok);
ok = setDefrostTimePeriodFraction(0.058333);
OS_ASSERT(ok);
autosizeResistiveDefrostHeaterCapacity();
setApplyPartLoadFractiontoSpeedsGreaterthan1(false);
ok = setFuelType("NaturalGas");
OS_ASSERT(ok);
ok = setRegionnumberforCalculatingHSPF(4);
OS_ASSERT(ok);
auto stageDataList = ModelObjectList(model);
stageDataList.setName(this->name().get() + " Stage Data List");
ok = getImpl<detail::CoilHeatingDXMultiSpeed_Impl>()->setStageDataList(stageDataList);
OS_ASSERT(ok);
}
CoilCoolingDXMultiSpeed::CoilCoolingDXMultiSpeed(const Model& model)
: StraightComponent(CoilCoolingDXMultiSpeed::iddObjectType(),model)
{
OS_ASSERT(getImpl<detail::CoilCoolingDXMultiSpeed_Impl>());
setCondenserType("AirCooled");
setApplyPartLoadFractiontoSpeedsGreaterthan1(false);
setCrankcaseHeaterCapacity(0.0);
setMaximumOutdoorDryBulbTemperatureforCrankcaseHeaterOperation(10.0);
setBasinHeaterCapacity(0.0);
setBasinHeaterSetpointTemperature(2.0);
setFuelType("NaturalGas");
}
CoilCoolingDXTwoStageWithHumidityControlMode::CoilCoolingDXTwoStageWithHumidityControlMode(const Model& model)
: StraightComponent(CoilCoolingDXTwoStageWithHumidityControlMode::iddObjectType(),model)
{
OS_ASSERT(getImpl<detail::CoilCoolingDXTwoStageWithHumidityControlMode_Impl>());
setNumberofCapacityStages(2);
setNumberofEnhancedDehumidificationModes(1);
setCrankcaseHeaterCapacity(0.0);
setMaximumOutdoorDryBulbTemperatureforCrankcaseHeaterOperation(10.0);
setBasinHeaterCapacity(0.0);
setBasinHeaterSetpointTemperature(2.0);
{
CurveBiquadratic totalCoolingCapacityFunctionofTemperatureCurve(model);
totalCoolingCapacityFunctionofTemperatureCurve.setCoefficient1Constant(1.067939449);
totalCoolingCapacityFunctionofTemperatureCurve.setCoefficient2x(-0.031261829);
totalCoolingCapacityFunctionofTemperatureCurve.setCoefficient3xPOW2(0.001974308);
totalCoolingCapacityFunctionofTemperatureCurve.setCoefficient4y(-0.002726426);
totalCoolingCapacityFunctionofTemperatureCurve.setCoefficient5yPOW2(-5.52654E-05);
totalCoolingCapacityFunctionofTemperatureCurve.setCoefficient6xTIMESY(-6.31169E-05);
totalCoolingCapacityFunctionofTemperatureCurve.setMinimumValueofx(-100);
totalCoolingCapacityFunctionofTemperatureCurve.setMaximumValueofx(100);
totalCoolingCapacityFunctionofTemperatureCurve.setMinimumValueofy(-100);
totalCoolingCapacityFunctionofTemperatureCurve.setMaximumValueofy(100);
CurveQuadratic totalCoolingCapacityFunctionofFlowFractionCurve(model);
totalCoolingCapacityFunctionofFlowFractionCurve.setCoefficient1Constant(0.8);
totalCoolingCapacityFunctionofFlowFractionCurve.setCoefficient2x(0.2);
totalCoolingCapacityFunctionofFlowFractionCurve.setCoefficient3xPOW2(0.0);
totalCoolingCapacityFunctionofFlowFractionCurve.setMinimumValueofx(0.5);
totalCoolingCapacityFunctionofFlowFractionCurve.setMaximumValueofx(1.5);
CurveBiquadratic energyInputRatioFunctionofTemperatureCurve(model);
energyInputRatioFunctionofTemperatureCurve.setCoefficient1Constant(0.174059889);
energyInputRatioFunctionofTemperatureCurve.setCoefficient2x(0.022281508);
energyInputRatioFunctionofTemperatureCurve.setCoefficient3xPOW2(-0.000134077);
energyInputRatioFunctionofTemperatureCurve.setCoefficient4y(0.028298025);
energyInputRatioFunctionofTemperatureCurve.setCoefficient5yPOW2(0.00048510);
energyInputRatioFunctionofTemperatureCurve.setCoefficient6xTIMESY(-0.001677095);
energyInputRatioFunctionofTemperatureCurve.setMinimumValueofx(-100);
energyInputRatioFunctionofTemperatureCurve.setMaximumValueofx(100);
energyInputRatioFunctionofTemperatureCurve.setMinimumValueofy(-100);
energyInputRatioFunctionofTemperatureCurve.setMaximumValueofy(100);
CurveQuadratic energyInputRatioFunctionofFlowFractionCurve(model);
energyInputRatioFunctionofFlowFractionCurve.setCoefficient1Constant(1.1552);
energyInputRatioFunctionofFlowFractionCurve.setCoefficient2x(-0.1808);
energyInputRatioFunctionofFlowFractionCurve.setCoefficient3xPOW2(0.0256);
energyInputRatioFunctionofFlowFractionCurve.setMinimumValueofx(0.5);
energyInputRatioFunctionofFlowFractionCurve.setMaximumValueofx(1.5);
CurveQuadratic partLoadFractionCorrelationCurve(model);
partLoadFractionCorrelationCurve.setCoefficient1Constant(0.85);
partLoadFractionCorrelationCurve.setCoefficient2x(0.15);
partLoadFractionCorrelationCurve.setCoefficient3xPOW2(0.0);
partLoadFractionCorrelationCurve.setMinimumValueofx(0.0);
partLoadFractionCorrelationCurve.setMaximumValueofx(1.0);
CoilPerformanceDXCooling coilPerformanceDXCooling(model,
totalCoolingCapacityFunctionofTemperatureCurve,
totalCoolingCapacityFunctionofFlowFractionCurve,
energyInputRatioFunctionofTemperatureCurve,
energyInputRatioFunctionofFlowFractionCurve,
partLoadFractionCorrelationCurve);
coilPerformanceDXCooling.setGrossRatedCoolingCOP(3.0);
coilPerformanceDXCooling.setFractionofAirFlowBypassedAroundCoil(0.5);
setNormalModeStage1CoilPerformance(coilPerformanceDXCooling);
}
{
CurveBiquadratic totalCoolingCapacityFunctionofTemperatureCurve(model);
totalCoolingCapacityFunctionofTemperatureCurve.setCoefficient1Constant(1.067939449);
totalCoolingCapacityFunctionofTemperatureCurve.setCoefficient2x(-0.031261829);
totalCoolingCapacityFunctionofTemperatureCurve.setCoefficient3xPOW2(0.001974308);
totalCoolingCapacityFunctionofTemperatureCurve.setCoefficient4y(-0.002726426);
totalCoolingCapacityFunctionofTemperatureCurve.setCoefficient5yPOW2(-5.52654E-05);
totalCoolingCapacityFunctionofTemperatureCurve.setCoefficient6xTIMESY(-6.31169E-05);
totalCoolingCapacityFunctionofTemperatureCurve.setMinimumValueofx(-100);
totalCoolingCapacityFunctionofTemperatureCurve.setMaximumValueofx(100);
totalCoolingCapacityFunctionofTemperatureCurve.setMinimumValueofy(-100);
totalCoolingCapacityFunctionofTemperatureCurve.setMaximumValueofy(100);
CurveQuadratic totalCoolingCapacityFunctionofFlowFractionCurve(model);
totalCoolingCapacityFunctionofFlowFractionCurve.setCoefficient1Constant(0.8);
totalCoolingCapacityFunctionofFlowFractionCurve.setCoefficient2x(0.2);
totalCoolingCapacityFunctionofFlowFractionCurve.setCoefficient3xPOW2(0.0);
totalCoolingCapacityFunctionofFlowFractionCurve.setMinimumValueofx(0.5);
totalCoolingCapacityFunctionofFlowFractionCurve.setMaximumValueofx(1.5);
CurveBiquadratic energyInputRatioFunctionofTemperatureCurve(model);
energyInputRatioFunctionofTemperatureCurve.setCoefficient1Constant(0.174059889);
energyInputRatioFunctionofTemperatureCurve.setCoefficient2x(0.022281508);
energyInputRatioFunctionofTemperatureCurve.setCoefficient3xPOW2(-0.000134077);
energyInputRatioFunctionofTemperatureCurve.setCoefficient4y(0.028298025);
energyInputRatioFunctionofTemperatureCurve.setCoefficient5yPOW2(0.00048510);
energyInputRatioFunctionofTemperatureCurve.setCoefficient6xTIMESY(-0.001677095);
energyInputRatioFunctionofTemperatureCurve.setMinimumValueofx(-100);
energyInputRatioFunctionofTemperatureCurve.setMaximumValueofx(100);
energyInputRatioFunctionofTemperatureCurve.setMinimumValueofy(-100);
energyInputRatioFunctionofTemperatureCurve.setMaximumValueofy(100);
CurveQuadratic energyInputRatioFunctionofFlowFractionCurve(model);
energyInputRatioFunctionofFlowFractionCurve.setCoefficient1Constant(1.1552);
energyInputRatioFunctionofFlowFractionCurve.setCoefficient2x(-0.1808);
energyInputRatioFunctionofFlowFractionCurve.setCoefficient3xPOW2(0.0256);
energyInputRatioFunctionofFlowFractionCurve.setMinimumValueofx(0.5);
energyInputRatioFunctionofFlowFractionCurve.setMaximumValueofx(1.5);
CurveQuadratic partLoadFractionCorrelationCurve(model);
partLoadFractionCorrelationCurve.setCoefficient1Constant(0.85);
partLoadFractionCorrelationCurve.setCoefficient2x(0.15);
partLoadFractionCorrelationCurve.setCoefficient3xPOW2(0.0);
partLoadFractionCorrelationCurve.setMinimumValueofx(0.0);
partLoadFractionCorrelationCurve.setMaximumValueofx(1.0);
CoilPerformanceDXCooling coilPerformanceDXCooling(model,
totalCoolingCapacityFunctionofTemperatureCurve,
totalCoolingCapacityFunctionofFlowFractionCurve,
energyInputRatioFunctionofTemperatureCurve,
energyInputRatioFunctionofFlowFractionCurve,
partLoadFractionCorrelationCurve);
coilPerformanceDXCooling.setGrossRatedCoolingCOP(3.0);
coilPerformanceDXCooling.setFractionofAirFlowBypassedAroundCoil(0.0);
setNormalModeStage1Plus2CoilPerformance(coilPerformanceDXCooling);
}
{
CurveBiquadratic totalCoolingCapacityFunctionofTemperatureCurve(model);
totalCoolingCapacityFunctionofTemperatureCurve.setCoefficient1Constant(0.596779741);
totalCoolingCapacityFunctionofTemperatureCurve.setCoefficient2x(0.034216637);
totalCoolingCapacityFunctionofTemperatureCurve.setCoefficient3xPOW2(0.000113924);
totalCoolingCapacityFunctionofTemperatureCurve.setCoefficient4y(-0.00375859);
totalCoolingCapacityFunctionofTemperatureCurve.setCoefficient5yPOW2(-9.17495E-05);
totalCoolingCapacityFunctionofTemperatureCurve.setCoefficient6xTIMESY(-8.98373E-05);
totalCoolingCapacityFunctionofTemperatureCurve.setMinimumValueofx(-100);
totalCoolingCapacityFunctionofTemperatureCurve.setMaximumValueofx(100);
totalCoolingCapacityFunctionofTemperatureCurve.setMinimumValueofy(-100);
totalCoolingCapacityFunctionofTemperatureCurve.setMaximumValueofy(100);
CurveQuadratic totalCoolingCapacityFunctionofFlowFractionCurve(model);
totalCoolingCapacityFunctionofFlowFractionCurve.setCoefficient1Constant(0.8);
totalCoolingCapacityFunctionofFlowFractionCurve.setCoefficient2x(0.2);
totalCoolingCapacityFunctionofFlowFractionCurve.setCoefficient3xPOW2(0.0);
totalCoolingCapacityFunctionofFlowFractionCurve.setMinimumValueofx(0.5);
totalCoolingCapacityFunctionofFlowFractionCurve.setMaximumValueofx(1.5);
CurveBiquadratic energyInputRatioFunctionofTemperatureCurve(model);
energyInputRatioFunctionofTemperatureCurve.setCoefficient1Constant(0.435347586);
energyInputRatioFunctionofTemperatureCurve.setCoefficient2x(0.004015641);
energyInputRatioFunctionofTemperatureCurve.setCoefficient3xPOW2(0.000604235);
energyInputRatioFunctionofTemperatureCurve.setCoefficient4y(0.015824043);
energyInputRatioFunctionofTemperatureCurve.setCoefficient5yPOW2(0.000747287);
energyInputRatioFunctionofTemperatureCurve.setCoefficient6xTIMESY(-0.001779745);
energyInputRatioFunctionofTemperatureCurve.setMinimumValueofx(-100);
energyInputRatioFunctionofTemperatureCurve.setMaximumValueofx(100);
energyInputRatioFunctionofTemperatureCurve.setMinimumValueofy(-100);
energyInputRatioFunctionofTemperatureCurve.setMaximumValueofy(100);
CurveQuadratic energyInputRatioFunctionofFlowFractionCurve(model);
energyInputRatioFunctionofFlowFractionCurve.setCoefficient1Constant(1.1552);
energyInputRatioFunctionofFlowFractionCurve.setCoefficient2x(-0.1808);
energyInputRatioFunctionofFlowFractionCurve.setCoefficient3xPOW2(0.0256);
energyInputRatioFunctionofFlowFractionCurve.setMinimumValueofx(0.5);
energyInputRatioFunctionofFlowFractionCurve.setMaximumValueofx(1.5);
CurveQuadratic partLoadFractionCorrelationCurve(model);
partLoadFractionCorrelationCurve.setCoefficient1Constant(0.85);
partLoadFractionCorrelationCurve.setCoefficient2x(0.15);
partLoadFractionCorrelationCurve.setCoefficient3xPOW2(0.0);
partLoadFractionCorrelationCurve.setMinimumValueofx(0.0);
partLoadFractionCorrelationCurve.setMaximumValueofx(1.0);
CoilPerformanceDXCooling coilPerformanceDXCooling(model,
totalCoolingCapacityFunctionofTemperatureCurve,
totalCoolingCapacityFunctionofFlowFractionCurve,
energyInputRatioFunctionofTemperatureCurve,
energyInputRatioFunctionofFlowFractionCurve,
partLoadFractionCorrelationCurve);
coilPerformanceDXCooling.setGrossRatedCoolingCOP(2.7);
coilPerformanceDXCooling.setFractionofAirFlowBypassedAroundCoil(0.5);
setDehumidificationMode1Stage1CoilPerformance(coilPerformanceDXCooling);
}
{
CurveBiquadratic totalCoolingCapacityFunctionofTemperatureCurve(model);
totalCoolingCapacityFunctionofTemperatureCurve.setCoefficient1Constant(0.596779741);
totalCoolingCapacityFunctionofTemperatureCurve.setCoefficient2x(0.034216637);
totalCoolingCapacityFunctionofTemperatureCurve.setCoefficient3xPOW2(0.000113924);
totalCoolingCapacityFunctionofTemperatureCurve.setCoefficient4y(-0.00375859);
totalCoolingCapacityFunctionofTemperatureCurve.setCoefficient5yPOW2(-9.17495E-05);
totalCoolingCapacityFunctionofTemperatureCurve.setCoefficient6xTIMESY(-8.98373E-05);
totalCoolingCapacityFunctionofTemperatureCurve.setMinimumValueofx(-100);
totalCoolingCapacityFunctionofTemperatureCurve.setMaximumValueofx(100);
totalCoolingCapacityFunctionofTemperatureCurve.setMinimumValueofy(-100);
totalCoolingCapacityFunctionofTemperatureCurve.setMaximumValueofy(100);
CurveQuadratic totalCoolingCapacityFunctionofFlowFractionCurve(model);
totalCoolingCapacityFunctionofFlowFractionCurve.setCoefficient1Constant(0.8);
totalCoolingCapacityFunctionofFlowFractionCurve.setCoefficient2x(0.2);
totalCoolingCapacityFunctionofFlowFractionCurve.setCoefficient3xPOW2(0.0);
totalCoolingCapacityFunctionofFlowFractionCurve.setMinimumValueofx(0.5);
totalCoolingCapacityFunctionofFlowFractionCurve.setMaximumValueofx(1.5);
CurveBiquadratic energyInputRatioFunctionofTemperatureCurve(model);
energyInputRatioFunctionofTemperatureCurve.setCoefficient1Constant(0.435347586);
energyInputRatioFunctionofTemperatureCurve.setCoefficient2x(0.004015641);
energyInputRatioFunctionofTemperatureCurve.setCoefficient3xPOW2(0.000604235);
energyInputRatioFunctionofTemperatureCurve.setCoefficient4y(0.015824043);
energyInputRatioFunctionofTemperatureCurve.setCoefficient5yPOW2(0.000747287);
energyInputRatioFunctionofTemperatureCurve.setCoefficient6xTIMESY(-0.001779745);
energyInputRatioFunctionofTemperatureCurve.setMinimumValueofx(-100);
energyInputRatioFunctionofTemperatureCurve.setMaximumValueofx(100);
energyInputRatioFunctionofTemperatureCurve.setMinimumValueofy(-100);
energyInputRatioFunctionofTemperatureCurve.setMaximumValueofy(100);
CurveQuadratic energyInputRatioFunctionofFlowFractionCurve(model);
energyInputRatioFunctionofFlowFractionCurve.setCoefficient1Constant(1.1552);
energyInputRatioFunctionofFlowFractionCurve.setCoefficient2x(-0.1808);
energyInputRatioFunctionofFlowFractionCurve.setCoefficient3xPOW2(0.0256);
energyInputRatioFunctionofFlowFractionCurve.setMinimumValueofx(0.5);
energyInputRatioFunctionofFlowFractionCurve.setMaximumValueofx(1.5);
CurveQuadratic partLoadFractionCorrelationCurve(model);
partLoadFractionCorrelationCurve.setCoefficient1Constant(0.85);
partLoadFractionCorrelationCurve.setCoefficient2x(0.15);
partLoadFractionCorrelationCurve.setCoefficient3xPOW2(0.0);
partLoadFractionCorrelationCurve.setMinimumValueofx(0.0);
partLoadFractionCorrelationCurve.setMaximumValueofx(1.0);
CoilPerformanceDXCooling coilPerformanceDXCooling(model,
totalCoolingCapacityFunctionofTemperatureCurve,
totalCoolingCapacityFunctionofFlowFractionCurve,
energyInputRatioFunctionofTemperatureCurve,
energyInputRatioFunctionofFlowFractionCurve,
partLoadFractionCorrelationCurve);
coilPerformanceDXCooling.setGrossRatedCoolingCOP(2.7);
coilPerformanceDXCooling.setFractionofAirFlowBypassedAroundCoil(0.0);
setDehumidificationMode1Stage1Plus2CoilPerformance(coilPerformanceDXCooling);
}
}
CoilWaterHeatingAirToWaterHeatPumpWrapped::CoilWaterHeatingAirToWaterHeatPumpWrapped(const Model& model)
: ModelObject(CoilWaterHeatingAirToWaterHeatPumpWrapped::iddObjectType(),model)
{
OS_ASSERT(getImpl<detail::CoilWaterHeatingAirToWaterHeatPumpWrapped_Impl>());
setRatedHeatingCapacity(2349.6);
setRatedCOP(2.4);
setRatedSensibleHeatRatio(0.981);
setRatedEvaporatorInletAirDryBulbTemperature(19.72);
setRatedEvaporatorInletAirWetBulbTemperature(13.5);
setRatedCondenserWaterTemperature(48.89);
setRatedEvaporatorAirFlowRate(0.189);
setEvaporatorFanPowerIncludedinRatedCOP(true);
setCrankcaseHeaterCapacity(0.0);
setMaximumAmbientTemperatureforCrankcaseHeaterOperation(10.0);
setEvaporatorAirTemperatureTypeforCurveObjects("WetBulbTemperature");
{
CurveBiquadratic curve(model);
curve.setName("HPWH-Htg-Cap-fT");
curve.setCoefficient1Constant(0.563);
curve.setCoefficient2x(0.0437);
curve.setCoefficient3xPOW2(0.000039);
curve.setCoefficient4y(0.0055);
curve.setCoefficient5yPOW2(-.000148);
curve.setCoefficient6xTIMESY(-.000145);
curve.setMinimumValueofx(0);
curve.setMaximumValueofx(100);
curve.setMinimumValueofy(0);
curve.setMaximumValueofy(100);
curve.setMinimumCurveOutput(0);
setHeatingCapacityFunctionofTemperatureCurve(curve);
}
{
CurveCubic curve(model);
curve.setName("HPWH-Htg-Cap-FF");
curve.setCoefficient1Constant(1.0);
curve.setCoefficient2x(0.0);
curve.setCoefficient3xPOW2(0.0);
curve.setCoefficient4xPOW3(0.0);
curve.setMinimumValueofx(0);
curve.setMaximumValueofx(100);
setHeatingCapacityFunctionofAirFlowFractionCurve(curve);
}
{
CurveBiquadratic curve(model);
curve.setName("HPWH-Htg-COP-fT");
curve.setCoefficient1Constant(1.1332);
curve.setCoefficient2x(0.063);
curve.setCoefficient3xPOW2(-.0000979);
curve.setCoefficient4y(-.00972);
curve.setCoefficient5yPOW2(-.0000214);
curve.setCoefficient6xTIMESY(-.000686);
curve.setMinimumValueofx(0);
curve.setMaximumValueofx(100);
curve.setMinimumValueofy(0);
curve.setMaximumValueofy(100);
setHeatingCOPFunctionofTemperatureCurve(curve);
}
{
CurveCubic curve(model);
curve.setName("HPWH-Htg-COP-FF");
curve.setCoefficient1Constant(1.0);
curve.setCoefficient2x(0.0);
curve.setCoefficient3xPOW2(0.0);
curve.setCoefficient4xPOW3(0.0);
curve.setMinimumValueofx(0);
curve.setMaximumValueofx(100);
setHeatingCOPFunctionofAirFlowFractionCurve(curve);
}
{
CurveCubic curve(model);
curve.setName("HPWH-COP-fPLR");
curve.setCoefficient1Constant(1);
curve.setCoefficient2x(0);
curve.setCoefficient3xPOW2(0);
curve.setCoefficient4xPOW3(0);
curve.setMinimumValueofx(0);
curve.setMaximumValueofx(1);
setPartLoadFractionCorrelationCurve(curve);
}
}
