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Type | Intent | Optional | Attributes | Name | ||
---|---|---|---|---|---|---|
integer, | intent(in) | :: | UnitarySysNum | |||
logical, | intent(in) | :: | FirstHVACIteration |
Nodes of different colours represent the following:
Solid arrows point from a procedure to one which it calls. Dashed arrows point from an interface to procedures which implement that interface. This could include the module procedures in a generic interface or the implementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are given different colours to make them easier to distinguish in large graphs.
Nodes of different colours represent the following:
Solid arrows point from a procedure to one which it calls. Dashed arrows point from an interface to procedures which implement that interface. This could include the module procedures in a generic interface or the implementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are given different colours to make them easier to distinguish in large graphs.
SUBROUTINE CalcUnitarySuppSystemtoSP(UnitarySysNum, FirstHVACIteration)
! SUBROUTINE INFORMATION:
! AUTHOR Richard Raustad, FSEC
! DATE WRITTEN February 2013
! MODIFIED na
! RE-ENGINEERED na
! PURPOSE OF THIS SUBROUTINE:
! This subroutine manages supplemental heater component simulation for setpoint based operation scheme.
! METHODOLOGY EMPLOYED:
! na
! REFERENCES:
! na
! USE STATEMENTS:
USE HeatingCoils, ONLY: SimulateHeatingCoilComponents
USE WaterCoils, ONLY: SimulateWaterCoilComponents
USE SteamCoils, ONLY: SimulateSteamCoilComponents
IMPLICIT NONE ! Enforce explicit typing of all variables in this routine
! SUBROUTINE ARGUMENT DEFINITIONS:
INTEGER, INTENT(IN) :: UnitarySysNum ! Index of AirloopHVAC:UnitarySystem object
LOGICAL, INTENT(IN) :: FirstHVACIteration ! True when first HVAC iteration
! SUBROUTINE PARAMETER DEFINITIONS:
! na
! INTERFACE BLOCK SPECIFICATIONS
! na
! DERIVED TYPE DEFINITIONS
! na
! SUBROUTINE LOCAL VARIABLE DECLARATIONS:
CHARACTER(len=MaxNameLength) :: CompName ! Name of Unitary System object
REAL(r64) :: QActual
CompName = UnitarySystem(UnitarySysNum)%SuppHeatCoilName
SELECT CASE(UnitarySystem(UnitarySysNum)%SuppHeatCoilType_Num)
CASE (Coil_HeatingGas,Coil_HeatingElectric)
CALL SimulateHeatingCoilComponents(CompName,FirstHVACIteration, &
CompIndex=UnitarySystem(UnitarySysNum)%SuppHeatCoilIndex, &
! QCoilReq=(UnitarySystem(UnitarySysNum)%DesignSuppHeatingCapacity* &
! UnitarySystem(UnitarySysNum)%SuppHeatPartLoadFrac), &
FanOpMode=UnitarySystem(UnitarySysNum)%FanOpMode, &
PartLoadRatio=UnitarySystem(UnitarySysNum)%SuppHeatPartLoadFrac)
CASE (Coil_HeatingDesuperheater )
CALL SimulateHeatingCoilComponents(CompName,FirstHVACIteration, &
CompIndex=UnitarySystem(UnitarySysNum)%SuppHeatCoilIndex, &
FanOpMode=UnitarySystem(UnitarySysNum)%FanOpMode, &
PartLoadRatio=UnitarySystem(UnitarySysNum)%SuppHeatPartLoadFrac)
CASE (Coil_HeatingWater)
CALL SimulateWaterCoilComponents(CompName,FirstHVACIteration, &
UnitarySystem(UnitarySysNum)%SuppHeatCoilIndex, &
QActual, UnitarySystem(UnitarySysNum)%FanOpMode, &
UnitarySystem(UnitarySysNum)%SuppHeatPartLoadFrac)
CASE (Coil_HeatingSteam)
CALL SimulateSteamCoilComponents(CompName, FirstHVACIteration, &
QCoilReq=(UnitarySystem(UnitarySysNum)%DesignSuppHeatingCapacity* &
UnitarySystem(UnitarySysNum)%SuppHeatPartLoadFrac), &
CompIndex = UnitarySystem(UnitarySysNum)%SuppHeatCoilIndex, &
FanOpMode = UnitarySystem(UnitarySysNum)%FanOpMode, &
PartLoadRatio = UnitarySystem(UnitarySysNum)%SuppHeatPartLoadFrac)
CASE DEFAULT
END SELECT
RETURN
END SUBROUTINE CalcUnitarySuppSystemtoSP