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47 :
48 : #include <EnergyPlus/Autosizing/BaseSizerWithFanHeatInputs.hh>
49 : #include <EnergyPlus/Autosizing/BaseSizerWithScalableInputs.hh>
50 : #include <EnergyPlus/Data/EnergyPlusData.hh>
51 : #include <EnergyPlus/DataHeatBalance.hh>
52 : #include <EnergyPlus/Fans.hh>
53 : #include <string>
54 :
55 : namespace EnergyPlus {
56 :
57 1954 : void BaseSizerWithScalableInputs::initializeWithinEP(EnergyPlusData &state,
58 : std::string_view const _compType,
59 : std::string_view const _compName,
60 : bool _printWarningFlag,
61 : std::string_view const _callingRoutine)
62 : {
63 1954 : BaseSizerWithFanHeatInputs::initializeWithinEP(state, _compType, _compName, _printWarningFlag, _callingRoutine);
64 :
65 1954 : this->dataScalableSizingON = state.dataSize->DataScalableSizingON;
66 1954 : this->dataScalableCapSizingON = state.dataSize->DataScalableCapSizingON;
67 1954 : this->dataHRFlowSizingFlag = state.dataSize->HRFlowSizingFlag;
68 1954 : this->zoneCoolingOnlyFan = state.dataSize->ZoneCoolingOnlyFan;
69 1954 : this->zoneHeatingOnlyFan = state.dataSize->ZoneHeatingOnlyFan;
70 1954 : this->dataFracOfAutosizedCoolingAirflow = state.dataSize->DataFracOfAutosizedCoolingAirflow;
71 1954 : this->dataFracOfAutosizedHeatingAirflow = state.dataSize->DataFracOfAutosizedHeatingAirflow;
72 1954 : this->dataFlowPerCoolingCapacity = state.dataSize->DataFlowPerCoolingCapacity;
73 1954 : this->dataAutosizedCoolingCapacity = state.dataSize->DataAutosizedCoolingCapacity;
74 1954 : this->dataFlowPerHeatingCapacity = state.dataSize->DataFlowPerHeatingCapacity;
75 1954 : this->dataAutosizedHeatingCapacity = state.dataSize->DataAutosizedHeatingCapacity;
76 :
77 1954 : this->dataCoilSizingAirInTemp = state.dataSize->DataCoilSizingAirInTemp;
78 1954 : this->dataCoilSizingAirInHumRat = state.dataSize->DataCoilSizingAirInHumRat;
79 1954 : this->dataCoilSizingAirOutTemp = state.dataSize->DataCoilSizingAirOutTemp;
80 1954 : this->dataCoilSizingAirOutHumRat = state.dataSize->DataCoilSizingAirOutHumRat;
81 1954 : this->dataCoilSizingFanCoolLoad = state.dataSize->DataCoilSizingFanCoolLoad;
82 1954 : this->dataCoilSizingCapFT = state.dataSize->DataCoilSizingCapFT;
83 1954 : this->dataTotCapCurveIndex = state.dataSize->DataTotCapCurveIndex;
84 1954 : this->dataTotCapCurveValue = state.dataSize->DataTotCapCurveValue;
85 1954 : this->dataFracOfAutosizedCoolingCapacity = state.dataSize->DataFracOfAutosizedCoolingCapacity;
86 1954 : this->dataFracOfAutosizedHeatingCapacity = state.dataSize->DataFracOfAutosizedHeatingCapacity;
87 1954 : this->dataCoolCoilCap = state.dataSize->DataCoolCoilCap;
88 1954 : this->dataCoilIsSuppHeater = state.dataSize->DataCoilIsSuppHeater;
89 1954 : this->suppHeatCap = state.dataSize->SuppHeatCap;
90 1954 : this->unitaryHeatCap = state.dataSize->UnitaryHeatCap;
91 1954 : this->dataCoolCoilType = state.dataSize->DataCoolCoilType;
92 1954 : this->dataCoolCoilIndex = state.dataSize->DataCoolCoilIndex;
93 :
94 1954 : this->zoneHVACSizing = state.dataSize->ZoneHVACSizing;
95 :
96 : // set supply air fan properties
97 2313 : if (this->isCoilReportObject && this->curSysNum > 0 && int(this->primaryAirSystem.size()) > 0 &&
98 359 : this->curSysNum <= state.dataHVACGlobal->NumPrimaryAirSys) {
99 :
100 : // int RetFanNum = this->primaryAirSystem(this->curSysNum).RetFanNum;
101 :
102 : // This should work for both fan types
103 239 : if (this->primaryAirSystem(this->curSysNum).supFanNum > 0) {
104 120 : state.dataRptCoilSelection->coilSelectionReportObj->setCoilSupplyFanInfo(
105 : state,
106 120 : this->compName,
107 120 : this->compType,
108 120 : state.dataFans->fans(this->primaryAirSystem(this->curSysNum).supFanNum)->Name,
109 120 : state.dataFans->fans(this->primaryAirSystem(this->curSysNum).supFanNum)->type,
110 120 : this->primaryAirSystem(this->curSysNum).supFanNum);
111 : }
112 : }
113 :
114 1954 : if (this->curZoneEqNum) {
115 1207 : if (this->zoneHVACSizingIndex > 0) {
116 0 : int coolingSAFMethod = this->zoneHVACSizing(this->zoneHVACSizingIndex).CoolingSAFMethod;
117 0 : this->zoneAirFlowSizMethod = coolingSAFMethod;
118 0 : this->dataFractionUsedForSizing = 1.0;
119 0 : this->dataConstantUsedForSizing = this->zoneHVACSizing(this->zoneHVACSizingIndex).MaxCoolAirVolFlow;
120 0 : if (coolingSAFMethod == DataSizing::FlowPerFloorArea) {
121 0 : state.dataSize->DataScalableSizingON = true;
122 0 : this->dataConstantUsedForSizing = this->zoneHVACSizing(this->zoneHVACSizingIndex).MaxCoolAirVolFlow *
123 0 : state.dataHeatBal->Zone(state.dataSize->DataZoneNumber).FloorArea;
124 0 : } else if (coolingSAFMethod == DataSizing::FractionOfAutosizedCoolingAirflow) {
125 0 : state.dataSize->DataFracOfAutosizedCoolingAirflow = this->zoneHVACSizing(this->zoneHVACSizingIndex).MaxCoolAirVolFlow;
126 0 : state.dataSize->DataScalableSizingON = true;
127 : }
128 : } else {
129 1207 : if (int(this->zoneEqSizing.size()) > 0 && int(this->zoneEqSizing(this->curZoneEqNum).SizingMethod.size()) > 0) {
130 1083 : this->zoneAirFlowSizMethod = this->zoneEqSizing(this->curZoneEqNum).SizingMethod(int(this->sizingType));
131 : } else {
132 124 : this->zoneAirFlowSizMethod = 0;
133 : }
134 1207 : if (this->zoneAirFlowSizMethod == 0) {
135 : // do nothing, sizing method not set
136 644 : } else if (this->zoneAirFlowSizMethod == DataSizing::SupplyAirFlowRate || this->zoneAirFlowSizMethod == DataSizing::None) {
137 : }
138 : }
139 : }
140 1954 : }
141 :
142 0 : void BaseSizerWithScalableInputs::setHVACSizingIndexData(int const index)
143 : {
144 0 : this->zoneHVACSizingIndex = index;
145 0 : }
146 :
147 : } // namespace EnergyPlus
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