boost::optional<IdfObject> ForwardTranslator::translateEvaporativeCoolerDirectResearchSpecial( EvaporativeCoolerDirectResearchSpecial & modelObject )
{
OptionalString s;
OptionalDouble d;
OptionalModelObject temp;
double value;
IdfObject idfObject(IddObjectType::EvaporativeCooler_Direct_ResearchSpecial);
m_idfObjects.push_back(idfObject);
// Name
s = modelObject.name();
if(s)
{
idfObject.setName(*s);
}
// AvailabilityScheduleName
Schedule sched = modelObject.availableSchedule();
translateAndMapModelObject(sched);
idfObject.setString(EvaporativeCooler_Direct_ResearchSpecialFields::AvailabilityScheduleName,sched.name().get());
// CoolerEffectiveness
value = modelObject.coolerEffectiveness();
idfObject.setDouble(EvaporativeCooler_Direct_ResearchSpecialFields::CoolerEffectiveness,value);
// RecirculatingWaterPumpPowerConsumption
value = modelObject.recirculatingWaterPumpPowerConsumption();
idfObject.setDouble(EvaporativeCooler_Direct_ResearchSpecialFields::RecirculatingWaterPumpPowerConsumption,value);
// AirInletNodeName
temp = modelObject.inletModelObject();
if(temp)
{
s = temp->name();
if(s)
{
idfObject.setString(EvaporativeCooler_Direct_ResearchSpecialFields::AirInletNodeName,*s);
}
}
// AirOutletNodeName
temp = modelObject.outletModelObject();
if(temp)
{
s = temp->name();
if(s)
{
idfObject.setString(EvaporativeCooler_Direct_ResearchSpecialFields::AirOutletNodeName,*s);
}
}
// SensorNodeName
temp = modelObject.sensorNode();
if(temp)
{
s = temp->name();
if(s)
{
idfObject.setString(EvaporativeCooler_Direct_ResearchSpecialFields::SensorNodeName,*s);
}
}
// DriftLossFraction
value = modelObject.driftLossFraction();
idfObject.setDouble(EvaporativeCooler_Direct_ResearchSpecialFields::DriftLossFraction,value);
// BlowdownConcentrationRatio
value = modelObject.blowdownConcentrationRatio();
if( value < 2 )
{
idfObject.setDouble(EvaporativeCooler_Direct_ResearchSpecialFields::BlowdownConcentrationRatio,2.0);
}
else
{
idfObject.setDouble(EvaporativeCooler_Direct_ResearchSpecialFields::BlowdownConcentrationRatio,value);
}
return boost::optional<IdfObject>(idfObject);
}
boost::optional<IdfObject> ForwardTranslator::translateEvaporativeCoolerDirectResearchSpecial( EvaporativeCoolerDirectResearchSpecial & modelObject )
{
OptionalString s;
OptionalDouble d;
OptionalModelObject temp;
double value;
IdfObject idfObject(IddObjectType::EvaporativeCooler_Direct_ResearchSpecial);
m_idfObjects.push_back(idfObject);
// Name
s = modelObject.name();
if(s)
{
idfObject.setName(*s);
}
// AvailabilityScheduleName
Schedule sched = modelObject.availableSchedule();
translateAndMapModelObject(sched);
idfObject.setString(EvaporativeCooler_Direct_ResearchSpecialFields::AvailabilityScheduleName,sched.name().get());
// CoolerEffectiveness
value = modelObject.coolerEffectiveness();
idfObject.setDouble(EvaporativeCooler_Direct_ResearchSpecialFields::CoolerDesignEffectiveness,value);
// RecirculatingWaterPumpPowerConsumption
if ( modelObject.isRecirculatingWaterPumpPowerConsumptionAutosized() ) {
idfObject.setString(EvaporativeCooler_Direct_ResearchSpecialFields::RecirculatingWaterPumpDesignPower,"autosize");
} else if( (d = modelObject.recirculatingWaterPumpPowerConsumption()) ) {
idfObject.setDouble(EvaporativeCooler_Direct_ResearchSpecialFields::RecirculatingWaterPumpDesignPower,d.get());
}
// AirInletNodeName
temp = modelObject.inletModelObject();
if(temp)
{
s = temp->name();
if(s)
{
idfObject.setString(EvaporativeCooler_Direct_ResearchSpecialFields::AirInletNodeName,*s);
}
}
// AirOutletNodeName
temp = modelObject.outletModelObject();
if(temp)
{
s = temp->name();
if(s)
{
idfObject.setString(EvaporativeCooler_Direct_ResearchSpecialFields::AirOutletNodeName,*s);
}
}
// SensorNodeName
temp = modelObject.sensorNode();
if(temp)
{
s = temp->name();
if(s)
{
idfObject.setString(EvaporativeCooler_Direct_ResearchSpecialFields::SensorNodeName,*s);
}
}
// DriftLossFraction
value = modelObject.driftLossFraction();
idfObject.setDouble(EvaporativeCooler_Direct_ResearchSpecialFields::DriftLossFraction,value);
// BlowdownConcentrationRatio
value = modelObject.blowdownConcentrationRatio();
if( value < 2 )
{
idfObject.setDouble(EvaporativeCooler_Direct_ResearchSpecialFields::BlowdownConcentrationRatio,2.0);
}
else
{
idfObject.setDouble(EvaporativeCooler_Direct_ResearchSpecialFields::BlowdownConcentrationRatio,value);
}
// EffectivenessFlowRatioModifierCurveName
if( auto curve = modelObject.effectivenessFlowRatioModifierCurve() ) {
auto _curve = translateAndMapModelObject(curve.get());
OS_ASSERT(_curve);
idfObject.setString(EvaporativeCooler_Direct_ResearchSpecialFields::EffectivenessFlowRatioModifierCurveName,_curve->name().get());
}
// WaterPumpPowerSizingFactor
value = modelObject.waterPumpPowerSizingFactor();
idfObject.setDouble(EvaporativeCooler_Direct_ResearchSpecialFields::WaterPumpPowerSizingFactor,value);
// WaterPumpPowerModifierCurveName
if( auto curve = modelObject.waterPumpPowerModifierCurve() ) {
auto _curve = translateAndMapModelObject(curve.get());
OS_ASSERT(_curve);
idfObject.setString(EvaporativeCooler_Direct_ResearchSpecialFields::WaterPumpPowerModifierCurveName,_curve->name().get());
}
return boost::optional<IdfObject>(idfObject);
}
