Line data    Source code

       1             : // EnergyPlus, Copyright (c) 1996-2024, The Board of Trustees of the University of Illinois,
       2             : // The Regents of the University of California, through Lawrence Berkeley National Laboratory
       3             : // (subject to receipt of any required approvals from the U.S. Dept. of Energy), Oak Ridge
       4             : // National Laboratory, managed by UT-Battelle, Alliance for Sustainable Energy, LLC, and other
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       7             : // NOTICE: This Software was developed under funding from the U.S. Department of Energy and the
       8             : // U.S. Government consequently retains certain rights. As such, the U.S. Government has been
       9             : // granted for itself and others acting on its behalf a paid-up, nonexclusive, irrevocable,
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      16             : // (1) Redistributions of source code must retain the above copyright notice, this list of
      17             : //     conditions and the following disclaimer.
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      20             : //     conditions and the following disclaimer in the documentation and/or other materials
      21             : //     provided with the distribution.
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      23             : // (3) Neither the name of the University of California, Lawrence Berkeley National Laboratory,
      24             : //     the University of Illinois, U.S. Dept. of Energy nor the names of its contributors may be
      25             : //     used to endorse or promote products derived from this software without specific prior
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      27             : //
      28             : // (4) Use of EnergyPlus(TM) Name. If Licensee (i) distributes the software in stand-alone form
      29             : //     without changes from the version obtained under this License, or (ii) Licensee makes a
      30             : //     reference solely to the software portion of its product, Licensee must refer to the
      31             : //     software as "EnergyPlus version X" software, where "X" is the version number Licensee
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      46             : // POSSIBILITY OF SUCH DAMAGE.
      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       19733 : 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       19733 :     BaseSizerWithFanHeatInputs::initializeWithinEP(state, _compType, _compName, _printWarningFlag, _callingRoutine);
      64             : 
      65       19733 :     this->dataScalableSizingON = state.dataSize->DataScalableSizingON;
      66       19733 :     this->dataScalableCapSizingON = state.dataSize->DataScalableCapSizingON;
      67       19733 :     this->dataHRFlowSizingFlag = state.dataSize->HRFlowSizingFlag;
      68       19733 :     this->zoneCoolingOnlyFan = state.dataSize->ZoneCoolingOnlyFan;
      69       19733 :     this->zoneHeatingOnlyFan = state.dataSize->ZoneHeatingOnlyFan;
      70       19733 :     this->dataFracOfAutosizedCoolingAirflow = state.dataSize->DataFracOfAutosizedCoolingAirflow;
      71       19733 :     this->dataFracOfAutosizedHeatingAirflow = state.dataSize->DataFracOfAutosizedHeatingAirflow;
      72       19733 :     this->dataFlowPerCoolingCapacity = state.dataSize->DataFlowPerCoolingCapacity;
      73       19733 :     this->dataAutosizedCoolingCapacity = state.dataSize->DataAutosizedCoolingCapacity;
      74       19733 :     this->dataFlowPerHeatingCapacity = state.dataSize->DataFlowPerHeatingCapacity;
      75       19733 :     this->dataAutosizedHeatingCapacity = state.dataSize->DataAutosizedHeatingCapacity;
      76             : 
      77       19733 :     this->dataCoilSizingAirInTemp = state.dataSize->DataCoilSizingAirInTemp;
      78       19733 :     this->dataCoilSizingAirInHumRat = state.dataSize->DataCoilSizingAirInHumRat;
      79       19733 :     this->dataCoilSizingAirOutTemp = state.dataSize->DataCoilSizingAirOutTemp;
      80       19733 :     this->dataCoilSizingAirOutHumRat = state.dataSize->DataCoilSizingAirOutHumRat;
      81       19733 :     this->dataCoilSizingFanCoolLoad = state.dataSize->DataCoilSizingFanCoolLoad;
      82       19733 :     this->dataCoilSizingCapFT = state.dataSize->DataCoilSizingCapFT;
      83       19733 :     this->dataTotCapCurveIndex = state.dataSize->DataTotCapCurveIndex;
      84       19733 :     this->dataTotCapCurveValue = state.dataSize->DataTotCapCurveValue;
      85       19733 :     this->dataFracOfAutosizedCoolingCapacity = state.dataSize->DataFracOfAutosizedCoolingCapacity;
      86       19733 :     this->dataFracOfAutosizedHeatingCapacity = state.dataSize->DataFracOfAutosizedHeatingCapacity;
      87       19733 :     this->dataCoolCoilCap = state.dataSize->DataCoolCoilCap;
      88       19733 :     this->dataCoilIsSuppHeater = state.dataSize->DataCoilIsSuppHeater;
      89       19733 :     this->suppHeatCap = state.dataSize->SuppHeatCap;
      90       19733 :     this->unitaryHeatCap = state.dataSize->UnitaryHeatCap;
      91       19733 :     this->dataCoolCoilType = state.dataSize->DataCoolCoilType;
      92       19733 :     this->dataCoolCoilIndex = state.dataSize->DataCoolCoilIndex;
      93             : 
      94       19733 :     this->zoneHVACSizing = state.dataSize->ZoneHVACSizing;
      95             : 
      96             :     // set supply air fan properties
      97       25184 :     if (this->isCoilReportObject && this->curSysNum > 0 && int(this->primaryAirSystem.size()) > 0 &&
      98        5451 :         this->curSysNum <= state.dataHVACGlobal->NumPrimaryAirSys) {
      99             : 
     100             :         // int RetFanNum = this->primaryAirSystem(this->curSysNum).RetFanNum;
     101             : 
     102             :         // This should work for both fan types
     103        5444 :         if (this->primaryAirSystem(this->curSysNum).supFanNum > 0) {
     104        5430 :             state.dataRptCoilSelection->coilSelectionReportObj->setCoilSupplyFanInfo(
     105             :                 state,
     106        5430 :                 this->compName,
     107        5430 :                 this->compType,
     108        5430 :                 state.dataFans->fans(this->primaryAirSystem(this->curSysNum).supFanNum)->Name,
     109        5430 :                 state.dataFans->fans(this->primaryAirSystem(this->curSysNum).supFanNum)->type,
     110        5430 :                 this->primaryAirSystem(this->curSysNum).supFanNum);
     111             :         }
     112             :     }
     113             : 
     114       19733 :     if (this->curZoneEqNum) {
     115       10301 :         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       10301 :             if (int(this->zoneEqSizing.size()) > 0 && int(this->zoneEqSizing(this->curZoneEqNum).SizingMethod.size()) > 0) {
     130       10301 :                 this->zoneAirFlowSizMethod = this->zoneEqSizing(this->curZoneEqNum).SizingMethod(int(this->sizingType));
     131             :             } else {
     132           0 :                 this->zoneAirFlowSizMethod = 0;
     133             :             }
     134       10301 :             if (this->zoneAirFlowSizMethod == 0) {
     135             :                 // do nothing, sizing method not set
     136         269 :             } else if (this->zoneAirFlowSizMethod == DataSizing::SupplyAirFlowRate || this->zoneAirFlowSizMethod == DataSizing::None) {
     137             :             }
     138             :         }
     139             :     }
     140       19733 : }
     141             : 
     142           0 : void BaseSizerWithScalableInputs::setHVACSizingIndexData(int const index)
     143             : {
     144           0 :     this->zoneHVACSizingIndex = index;
     145           0 : }
     146             : 
     147             : } // namespace EnergyPlus