block ZoneWithAHUG36 "A single zone building with a VAV system and a Guideline36 controller" package MediumA = Buildings.Media.Air(extraPropertiesNames={"CO2"}) "Buildings library air media package"; package MediumW = Buildings.Media.Water "Buildings library water media package"; parameter Modelica.Units.SI.Temperature TSupChi_nominal=279.15 "Design value for chiller leaving water temperature"; parameter Modelica.Units.SI.Volume VRoo=4555.7 "Space volume of the floor"; parameter Modelica.Units.SI.MassFlowRate mAir_flow_nominal=VRoo*4*1.2/3600 "Design air flow rate"; parameter Modelica.Units.SI.HeatFlowRate QHea_flow_nominal=90000 "Design heating flow rate"; parameter Modelica.Units.SI.HeatFlowRate QCoo_flow_nominal=-100000 "Design cooling flow rate"; Buildings.Controls.OBC.CDL.Interfaces.RealInput warUpTim( final unit="s", final quantity="Time") "Warm-up time retrieved from optimal warm-up block"; Buildings.Controls.OBC.CDL.Interfaces.RealInput cooDowTim( final unit="s", final quantity="Time") "Cool-down time retrieved from optimal cool-down block"; Buildings.Controls.OBC.CDL.Interfaces.RealInput tNexOcc( final unit="s", final quantity="Time") "Next occupancy time"; Buildings.Controls.OBC.CDL.Interfaces.BooleanInput uOcc "Current occupancy period, true if it is in occupant period"; Buildings.Controls.OBC.CDL.Interfaces.RealOutput TZon( final unit="K", displayUnit="degC", final quantity="ThermodynamicTemperature") "Zone air temperature"; Buildings.Obsolete.Controls.OBC.ASHRAE.G36_PR1.AHUs.SingleZone.VAV.Controller con( have_winSen=false, TZonHeaOn=293.15, TZonCooOff=303.15, kCoo=4, kCooCoi=1, yHeaMax=0.2, AFlo=1663, VOutMin_flow=0.5, VOutDes_flow=0.71, yMin=0.1, kHea=4, kMod=4, have_occSen=false, TZonHeaOff=288.15, TZonCooOn=297.15, TSupSetMax=343.15, TSupSetMin=286.15, uLow=0, uHigh=0.5) "VAV controller"; Buildings.ThermalZones.Detailed.Validation.BaseClasses.SingleZoneFloor sinZonFlo( redeclare package Medium = MediumA) "Single zone floor"; Buildings.Air.Systems.SingleZone.VAV.ChillerDXHeatingEconomizer hvac( redeclare package MediumA = MediumA, redeclare package MediumW = MediumW, mAir_flow_nominal=mAir_flow_nominal, etaHea_nominal=0.99, QHea_flow_nominal=QHea_flow_nominal, QCoo_flow_nominal=QCoo_flow_nominal, TSupChi_nominal=TSupChi_nominal) "HVAC system"; Buildings.Controls.OBC.CDL.Reals.Hysteresis hysChiPla1(uLow=-1, uHigh=0) "Hysteresis with delay to switch on cooling"; Modelica.Blocks.Math.Feedback errTRooCoo1 "Control error on room temperature for cooling"; Buildings.BoundaryConditions.WeatherData.Bus weaBus "Weather bus"; Buildings.Controls.OBC.CDL.Integers.Sources.Constant demLim( final k=0) "Cooling and heating demand imit level"; protected Buildings.Controls.OBC.CDL.Reals.Sources.Constant TSetSupChiConst( final k=TSupChi_nominal) "Set point for chiller temperature"; equation connect(con.yFan, hvac.uFan); connect(con.yHeaCoi, hvac.uHea); connect(con.yOutDamPos, hvac.uEco); connect(hvac.TSup, con.TSup); connect(hvac.TMix, con.TMix); connect(hvac.TRet, con.TCut); connect(weaBus, sinZonFlo.weaBus); connect(con.yCooCoi, hvac.uCooVal); connect(hvac.supplyAir, sinZonFlo.ports[1]); connect(hvac.returnAir, sinZonFlo.ports[2]); connect(errTRooCoo1.y,hysChiPla1. u); connect(hysChiPla1.y, hvac.chiOn); connect(con.TZonCooSet, errTRooCoo1.u2); connect(con.TOut, weaBus.TDryBul); connect(errTRooCoo1.u1, con.TZon); connect(TSetSupChiConst.y, hvac.TSetChi); connect(sinZonFlo.TRooAir, con.TZon); connect(demLim.y, con.uCooDemLimLev); connect(demLim.y, con.uHeaDemLimLev); connect(sinZonFlo.TRooAir, TZon); connect(tNexOcc, con.tNexOcc); connect(uOcc, con.uOcc); connect(warUpTim, con.warUpTim); connect(cooDowTim, con.cooDowTim); connect(hvac.weaBus, weaBus); end ZoneWithAHUG36;