model Floor "This is the simulation model of Floor within building OfficeBuilding" Buildings.BoundaryConditions.SolarIrradiation.DiffusePerez HDifTil[6]( each outSkyCon=true, each outGroCon=true, til={1.5707963267949,1.5707963267949,1.5707963267949,1.5707963267949,0,0}, azi={3.1415926535898,0,1.5707963267949,-1.5707963267949,0,0}) "Calculates diffuse solar radiation on titled surface for all directions"; Buildings.BoundaryConditions.SolarIrradiation.DirectTiltedSurface HDirTil[6](til={ 1.5707963267949,1.5707963267949,1.5707963267949,1.5707963267949,0,0}, azi={3.1415926535898,0,1.5707963267949,-1.5707963267949,0,0}) "Calculates direct solar radiation on titled surface for all directions"; Buildings.ThermalZones.ReducedOrder.SolarGain.CorrectionGDoublePane corGDoublePane( n=6, UWin=1.8936557576825381) "Correction factor for solar transmission"; Buildings.ThermalZones.ReducedOrder.RC.TwoElements thermalZoneTwoElements( redeclare package Medium=Buildings.Media.Air, VAir=3261.7921338576007, hConExt=2.0490178828959134, hConWin=2.7000000000000006, gWin=0.6699999999999999, ratioWinConRad=0.029999999999999995, nExt=1, RExt={2.3174831586466932e-05}, CExt={408244783.5430907}, hRad=5.0, AInt=5119.003369012401, hConInt=2.3902922093005254, nInt=1, RInt={1.3425684356446266e-05}, CInt={573809361.8851968}, RWin=0.002198739011727672, RExtRem=0.0012526070384860479, energyDynamics=Modelica.Fluid.Types.Dynamics.FixedInitial, extWallRC( thermCapExt( each der_T( fixed=true))), intWallRC( thermCapInt( each der_T( fixed=true))), nOrientations=6, AWin={74.54769655777831,74.54769655777831,6.910119334253305,6.910119334253305,0.0,0.0}, ATransparent={74.54769655777831,74.54769655777831,6.910119334253305,6.910119334253305,0.0,0.0}, AExt={223.64308967333497,223.64308967333497,20.730358002759914,20.730358002759914,455.8011269000001,455.8011269000001}) "Thermal zone"; Buildings.ThermalZones.ReducedOrder.EquivalentAirTemperature.VDI6007WithWindow eqAirTemp( n=6, wfGro=0.3626976838332763, wfWall={0.15582361279765053,0.15582361279765053,0.014443903825944522,0.014443903825944522,0.2967672829195336,0.0}, wfWin={0.4575846758314001,0.4575846758314001,0.04241532416859994,0.04241532416859994,0.0,0.0}, withLongwave=true, aExt=0.5, hConWallOut=20.0, hRad=5.0, hConWinOut=20.0, TGro=286.15) "Computes equivalent air temperature"; Modelica.Blocks.Math.Add solRad[6] "Sums up solar radiation of both directions"; Modelica.Thermal.HeatTransfer.Sources.PrescribedTemperature prescribedTemperature "Prescribed temperature for exterior walls outdoor surface temperature"; Modelica.Thermal.HeatTransfer.Sources.PrescribedTemperature prescribedTemperature1 "Prescribed temperature for windows outdoor surface temperature"; Modelica.Thermal.HeatTransfer.Components.Convection thermalConductorWin "Outdoor convective heat transfer of windows"; Modelica.Thermal.HeatTransfer.Components.Convection thermalConductorWall "Outdoor convective heat transfer of walls"; Modelica.Blocks.Sources.Constant const[6]( each k=0) "Sets sunblind signal to zero (open)"; Buildings.BoundaryConditions.WeatherData.Bus weaBus "Weather data bus"; Modelica.Blocks.Sources.Constant hConWall( k=25.0*1400.34914915219) "Outdoor coefficient of heat transfer for walls"; Modelica.Blocks.Sources.Constant hConWin( k=25.0*162.91563178406324) "Outdoor coefficient of heat transfer for windows"; Modelica.Thermal.HeatTransfer.Sources.PrescribedHeatFlow personsRad "Radiative heat flow of persons"; Modelica.Thermal.HeatTransfer.Sources.PrescribedHeatFlow personsConv "Convective heat flow of persons"; Modelica.Thermal.HeatTransfer.Sources.PrescribedHeatFlow machinesConv "Convective heat flow of machines"; Modelica.Blocks.Sources.CombiTimeTable internalGains( tableOnFile=true, extrapolation=Modelica.Blocks.Types.Extrapolation.Periodic, tableName="Internals", fileName=Modelica.Utilities.Files.loadResource( "modelica://Buildings/Resources/Data/Experimental/DHC/Loads/Examples/BaseClasses/GeojsonExportRC/OfficeBuilding/InternalGains_Floor.txt"), columns={2,3,4}) "Table with profiles for persons (radiative and convective) and machines (convective)"; Modelica.Thermal.HeatTransfer.Interfaces.HeatPort_a port_a "Heat port for sensible convective gains"; Buildings.Controls.OBC.CDL.Interfaces.RealOutput TAir( quantity="ThermodynamicTemperature", unit="K", displayUnit="degC") "Room air temperature"; equation connect(eqAirTemp.TEqAirWin,prescribedTemperature1.T); connect(eqAirTemp.TEqAir,prescribedTemperature.T); connect(weaBus.TDryBul,eqAirTemp.TDryBul); connect(internalGains.y[1],personsRad.Q_flow); connect(internalGains.y[2],personsConv.Q_flow); connect(internalGains.y[3],machinesConv.Q_flow); connect(const.y,eqAirTemp.sunblind); connect(HDifTil.HSkyDifTil,corGDoublePane.HSkyDifTil); connect(HDirTil.H,corGDoublePane.HDirTil); connect(HDirTil.H,solRad.u1); connect(HDirTil.inc,corGDoublePane.inc); connect(HDifTil.H,solRad.u2); connect(HDifTil.HGroDifTil,corGDoublePane.HGroDifTil); connect(solRad.y,eqAirTemp.HSol); connect(weaBus,HDifTil[1].weaBus); connect(weaBus,HDirTil[1].weaBus); connect(weaBus,HDifTil[2].weaBus); connect(weaBus,HDirTil[2].weaBus); connect(weaBus,HDifTil[3].weaBus); connect(weaBus,HDirTil[3].weaBus); connect(weaBus,HDifTil[4].weaBus); connect(weaBus,HDirTil[4].weaBus); connect(weaBus,HDifTil[5].weaBus); connect(weaBus,HDirTil[5].weaBus); connect(weaBus,HDifTil[6].weaBus); connect(weaBus,HDirTil[6].weaBus); connect(personsRad.port,thermalZoneTwoElements.intGainsRad); connect(thermalConductorWin.solid,thermalZoneTwoElements.window); connect(prescribedTemperature1.port,thermalConductorWin.fluid); connect(thermalZoneTwoElements.extWall,thermalConductorWall.solid); connect(thermalConductorWall.fluid,prescribedTemperature.port); connect(hConWall.y,thermalConductorWall.Gc); connect(hConWin.y,thermalConductorWin.Gc); connect(weaBus.TBlaSky,eqAirTemp.TBlaSky); connect(machinesConv.port,thermalZoneTwoElements.intGainsConv); connect(personsConv.port,thermalZoneTwoElements.intGainsConv); connect(corGDoublePane.solarRadWinTrans,thermalZoneTwoElements.solRad); connect(port_a,thermalZoneTwoElements.intGainsConv); connect(thermalZoneTwoElements.TAir,TAir); end Floor;

model ICT "This is the simulation model of ICT within building OfficeBuilding" Buildings.BoundaryConditions.SolarIrradiation.DiffusePerez HDifTil[6]( each outSkyCon=true, each outGroCon=true, til={1.5707963267949,1.5707963267949,1.5707963267949,1.5707963267949,0,0}, azi={3.1415926535898,0,1.5707963267949,-1.5707963267949,0,0}) "Calculates diffuse solar radiation on titled surface for all directions"; Buildings.BoundaryConditions.SolarIrradiation.DirectTiltedSurface HDirTil[6](til={ 1.5707963267949,1.5707963267949,1.5707963267949,1.5707963267949,0,0}, azi={3.1415926535898,0,1.5707963267949,-1.5707963267949,0,0}) "Calculates direct solar radiation on titled surface for all directions"; Buildings.ThermalZones.ReducedOrder.SolarGain.CorrectionGDoublePane corGDoublePane( n=6, UWin=1.8936557576825384) "Correction factor for solar transmission"; Buildings.ThermalZones.ReducedOrder.RC.TwoElements thermalZoneTwoElements( redeclare package Medium=Buildings.Media.Air, VAir=260.9433707086081, hConExt=2.0490178828959125, hConWin=2.7000000000000006, gWin=0.6700000000000002, ratioWinConRad=0.030000000000000002, nExt=1, RExt={0.00028968539483083646}, CExt={32659582.683447275}, hRad=5.000000000000001, AInt=257.303303274304, hConInt=2.207073495341845, nInt=1, RInt={0.0002111894006425288}, CInt={37115084.57178593}, RWin=0.027484237646595907, RExtRem=0.015657587981075596, energyDynamics=Modelica.Fluid.Types.Dynamics.FixedInitial, extWallRC( thermCapExt( each der_T( fixed=true))), intWallRC( thermCapInt( each der_T( fixed=true))), nOrientations=6, AWin={5.963815724622265,5.963815724622265,0.5528095467402644,0.5528095467402644,0.0,0.0}, ATransparent={5.963815724622265,5.963815724622265,0.5528095467402644,0.5528095467402644,0.0,0.0}, AExt={17.891447173866798,17.891447173866798,1.658428640220793,1.658428640220793,36.46409015200001,36.46409015200001}) "Thermal zone"; Buildings.ThermalZones.ReducedOrder.EquivalentAirTemperature.VDI6007WithWindow eqAirTemp( n=6, wfGro=0.3626976838332763, wfWall={0.15582361279765056,0.15582361279765056,0.014443903825944524,0.014443903825944524,0.2967672829195336,0.0}, wfWin={0.45758467583140006,0.45758467583140006,0.04241532416859994,0.04241532416859994,0.0,0.0}, withLongwave=true, aExt=0.5, hConWallOut=20.0, hRad=5.0, hConWinOut=20.0, TGro=286.15) "Computes equivalent air temperature"; Modelica.Blocks.Math.Add solRad[6] "Sums up solar radiation of both directions"; Modelica.Thermal.HeatTransfer.Sources.PrescribedTemperature prescribedTemperature "Prescribed temperature for exterior walls outdoor surface temperature"; Modelica.Thermal.HeatTransfer.Sources.PrescribedTemperature prescribedTemperature1 "Prescribed temperature for windows outdoor surface temperature"; Modelica.Thermal.HeatTransfer.Components.Convection thermalConductorWin "Outdoor convective heat transfer of windows"; Modelica.Thermal.HeatTransfer.Components.Convection thermalConductorWall "Outdoor convective heat transfer of walls"; Modelica.Blocks.Sources.Constant const[6]( each k=0) "Sets sunblind signal to zero (open)"; Buildings.BoundaryConditions.WeatherData.Bus weaBus "Weather data bus"; Modelica.Blocks.Sources.Constant hConWall( k=25.000000000000004*112.0279319321752) "Outdoor coefficient of heat transfer for walls"; Modelica.Blocks.Sources.Constant hConWin( k=24.999999999999996*13.033250542725057) "Outdoor coefficient of heat transfer for windows"; Modelica.Thermal.HeatTransfer.Sources.PrescribedHeatFlow personsRad "Radiative heat flow of persons"; Modelica.Thermal.HeatTransfer.Sources.PrescribedHeatFlow personsConv "Convective heat flow of persons"; Modelica.Thermal.HeatTransfer.Sources.PrescribedHeatFlow machinesConv "Convective heat flow of machines"; Modelica.Blocks.Sources.CombiTimeTable internalGains( tableOnFile=true, extrapolation=Modelica.Blocks.Types.Extrapolation.Periodic, tableName="Internals", fileName=Modelica.Utilities.Files.loadResource( "modelica://Buildings/Resources/Data/Experimental/DHC/Loads/Examples/BaseClasses/GeojsonExportRC/OfficeBuilding/InternalGains_ICT.txt"), columns={2,3,4}) "Table with profiles for persons (radiative and convective) and machines (convective)"; Modelica.Thermal.HeatTransfer.Interfaces.HeatPort_a port_a "Heat port for sensible convective gains"; Buildings.Controls.OBC.CDL.Interfaces.RealOutput TAir( quantity="ThermodynamicTemperature", unit="K", displayUnit="degC") "Room air temperature"; equation connect(eqAirTemp.TEqAirWin,prescribedTemperature1.T); connect(eqAirTemp.TEqAir,prescribedTemperature.T); connect(weaBus.TDryBul,eqAirTemp.TDryBul); connect(internalGains.y[1],personsRad.Q_flow); connect(internalGains.y[2],personsConv.Q_flow); connect(internalGains.y[3],machinesConv.Q_flow); connect(const.y,eqAirTemp.sunblind); connect(HDifTil.HSkyDifTil,corGDoublePane.HSkyDifTil); connect(HDirTil.H,corGDoublePane.HDirTil); connect(HDirTil.H,solRad.u1); connect(HDirTil.inc,corGDoublePane.inc); connect(HDifTil.H,solRad.u2); connect(HDifTil.HGroDifTil,corGDoublePane.HGroDifTil); connect(solRad.y,eqAirTemp.HSol); connect(weaBus,HDifTil[1].weaBus); connect(weaBus,HDirTil[1].weaBus); connect(weaBus,HDifTil[2].weaBus); connect(weaBus,HDirTil[2].weaBus); connect(weaBus,HDifTil[3].weaBus); connect(weaBus,HDirTil[3].weaBus); connect(weaBus,HDifTil[4].weaBus); connect(weaBus,HDirTil[4].weaBus); connect(weaBus,HDifTil[5].weaBus); connect(weaBus,HDirTil[5].weaBus); connect(weaBus,HDifTil[6].weaBus); connect(weaBus,HDirTil[6].weaBus); connect(personsRad.port,thermalZoneTwoElements.intGainsRad); connect(thermalConductorWin.solid,thermalZoneTwoElements.window); connect(prescribedTemperature1.port,thermalConductorWin.fluid); connect(thermalZoneTwoElements.extWall,thermalConductorWall.solid); connect(thermalConductorWall.fluid,prescribedTemperature.port); connect(hConWall.y,thermalConductorWall.Gc); connect(hConWin.y,thermalConductorWin.Gc); connect(weaBus.TBlaSky,eqAirTemp.TBlaSky); connect(machinesConv.port,thermalZoneTwoElements.intGainsConv); connect(personsConv.port,thermalZoneTwoElements.intGainsConv); connect(corGDoublePane.solarRadWinTrans,thermalZoneTwoElements.solRad); connect(port_a,thermalZoneTwoElements.intGainsConv); connect(thermalZoneTwoElements.TAir,TAir); end ICT;

model Meeting "This is the simulation model of Meeting within building OfficeBuilding" Buildings.BoundaryConditions.SolarIrradiation.DiffusePerez HDifTil[6]( each outSkyCon=true, each outGroCon=true, til={1.5707963267949,1.5707963267949,1.5707963267949,1.5707963267949,0,0}, azi={3.1415926535898,0,1.5707963267949,-1.5707963267949,0,0}) "Calculates diffuse solar radiation on titled surface for all directions"; Buildings.BoundaryConditions.SolarIrradiation.DirectTiltedSurface HDirTil[6](til={ 1.5707963267949,1.5707963267949,1.5707963267949,1.5707963267949,0,0}, azi={3.1415926535898,0,1.5707963267949,-1.5707963267949,0,0}) "Calculates direct solar radiation on titled surface for all directions"; Buildings.ThermalZones.ReducedOrder.SolarGain.CorrectionGDoublePane corGDoublePane( n=6, UWin=1.8936557576825384) "Correction factor for solar transmission"; Buildings.ThermalZones.ReducedOrder.RC.TwoElements thermalZoneTwoElements( redeclare package Medium=Buildings.Media.Air, VAir=521.8867414172162, hConExt=2.0490178828959125, hConWin=2.7000000000000006, gWin=0.6700000000000002, ratioWinConRad=0.030000000000000002, nExt=1, RExt={0.00014484269741541823}, CExt={65319165.36689455}, hRad=5.000000000000001, AInt=514.606606548608, hConInt=2.207073495341845, nInt=1, RInt={0.0001055947003212644}, CInt={74230169.14357185}, RWin=0.013742118823297953, RExtRem=0.007828793990537798, energyDynamics=Modelica.Fluid.Types.Dynamics.FixedInitial, extWallRC( thermCapExt( each der_T( fixed=true))), intWallRC( thermCapInt( each der_T( fixed=true))), nOrientations=6, AWin={11.92763144924453,11.92763144924453,1.1056190934805288,1.1056190934805288,0.0,0.0}, ATransparent={11.92763144924453,11.92763144924453,1.1056190934805288,1.1056190934805288,0.0,0.0}, AExt={35.782894347733595,35.782894347733595,3.316857280441586,3.316857280441586,72.92818030400002,72.92818030400002}) "Thermal zone"; Buildings.ThermalZones.ReducedOrder.EquivalentAirTemperature.VDI6007WithWindow eqAirTemp( n=6, wfGro=0.3626976838332763, wfWall={0.15582361279765056,0.15582361279765056,0.014443903825944524,0.014443903825944524,0.2967672829195336,0.0}, wfWin={0.45758467583140006,0.45758467583140006,0.04241532416859994,0.04241532416859994,0.0,0.0}, withLongwave=true, aExt=0.5, hConWallOut=20.0, hRad=5.0, hConWinOut=20.0, TGro=286.15) "Computes equivalent air temperature"; Modelica.Blocks.Math.Add solRad[6] "Sums up solar radiation of both directions"; Modelica.Thermal.HeatTransfer.Sources.PrescribedTemperature prescribedTemperature "Prescribed temperature for exterior walls outdoor surface temperature"; Modelica.Thermal.HeatTransfer.Sources.PrescribedTemperature prescribedTemperature1 "Prescribed temperature for windows outdoor surface temperature"; Modelica.Thermal.HeatTransfer.Components.Convection thermalConductorWin "Outdoor convective heat transfer of windows"; Modelica.Thermal.HeatTransfer.Components.Convection thermalConductorWall "Outdoor convective heat transfer of walls"; Modelica.Blocks.Sources.Constant const[6]( each k=0) "Sets sunblind signal to zero (open)"; Buildings.BoundaryConditions.WeatherData.Bus weaBus "Weather data bus"; Modelica.Blocks.Sources.Constant hConWall( k=25.000000000000004*224.0558638643504) "Outdoor coefficient of heat transfer for walls"; Modelica.Blocks.Sources.Constant hConWin( k=24.999999999999996*26.066501085450113) "Outdoor coefficient of heat transfer for windows"; Modelica.Thermal.HeatTransfer.Sources.PrescribedHeatFlow personsRad "Radiative heat flow of persons"; Modelica.Thermal.HeatTransfer.Sources.PrescribedHeatFlow personsConv "Convective heat flow of persons"; Modelica.Thermal.HeatTransfer.Sources.PrescribedHeatFlow machinesConv "Convective heat flow of machines"; Modelica.Blocks.Sources.CombiTimeTable internalGains( tableOnFile=true, extrapolation=Modelica.Blocks.Types.Extrapolation.Periodic, tableName="Internals", fileName=Modelica.Utilities.Files.loadResource( "modelica://Buildings/Resources/Data/Experimental/DHC/Loads/Examples/BaseClasses/GeojsonExportRC/OfficeBuilding/InternalGains_Meeting.txt"), columns={2,3,4}) "Table with profiles for persons (radiative and convective) and machines (convective)"; Modelica.Thermal.HeatTransfer.Interfaces.HeatPort_a port_a "Heat port for sensible convective gains"; Buildings.Controls.OBC.CDL.Interfaces.RealOutput TAir( quantity="ThermodynamicTemperature", unit="K", displayUnit="degC") "Room air temperature"; equation connect(eqAirTemp.TEqAirWin,prescribedTemperature1.T); connect(eqAirTemp.TEqAir,prescribedTemperature.T); connect(weaBus.TDryBul,eqAirTemp.TDryBul); connect(internalGains.y[1],personsRad.Q_flow); connect(internalGains.y[2],personsConv.Q_flow); connect(internalGains.y[3],machinesConv.Q_flow); connect(const.y,eqAirTemp.sunblind); connect(HDifTil.HSkyDifTil,corGDoublePane.HSkyDifTil); connect(HDirTil.H,corGDoublePane.HDirTil); connect(HDirTil.H,solRad.u1); connect(HDirTil.inc,corGDoublePane.inc); connect(HDifTil.H,solRad.u2); connect(HDifTil.HGroDifTil,corGDoublePane.HGroDifTil); connect(solRad.y,eqAirTemp.HSol); connect(weaBus,HDifTil[1].weaBus); connect(weaBus,HDirTil[1].weaBus); connect(weaBus,HDifTil[2].weaBus); connect(weaBus,HDirTil[2].weaBus); connect(weaBus,HDifTil[3].weaBus); connect(weaBus,HDirTil[3].weaBus); connect(weaBus,HDifTil[4].weaBus); connect(weaBus,HDirTil[4].weaBus); connect(weaBus,HDifTil[5].weaBus); connect(weaBus,HDirTil[5].weaBus); connect(weaBus,HDifTil[6].weaBus); connect(weaBus,HDirTil[6].weaBus); connect(personsRad.port,thermalZoneTwoElements.intGainsRad); connect(thermalConductorWin.solid,thermalZoneTwoElements.window); connect(prescribedTemperature1.port,thermalConductorWin.fluid); connect(thermalZoneTwoElements.extWall,thermalConductorWall.solid); connect(thermalConductorWall.fluid,prescribedTemperature.port); connect(hConWall.y,thermalConductorWall.Gc); connect(hConWin.y,thermalConductorWin.Gc); connect(weaBus.TBlaSky,eqAirTemp.TBlaSky); connect(machinesConv.port,thermalZoneTwoElements.intGainsConv); connect(personsConv.port,thermalZoneTwoElements.intGainsConv); connect(corGDoublePane.solarRadWinTrans,thermalZoneTwoElements.solRad); connect(port_a,thermalZoneTwoElements.intGainsConv); connect(thermalZoneTwoElements.TAir,TAir); end Meeting;

model Office "This is the simulation model of Office within building OfficeBuilding" Buildings.BoundaryConditions.SolarIrradiation.DiffusePerez HDifTil[6]( each outSkyCon=true, each outGroCon=true, til={1.5707963267949,1.5707963267949,1.5707963267949,1.5707963267949,0,0}, azi={3.1415926535898,0,1.5707963267949,-1.5707963267949,0,0}) "Calculates diffuse solar radiation on titled surface for all directions"; Buildings.BoundaryConditions.SolarIrradiation.DirectTiltedSurface HDirTil[6](til={ 1.5707963267949,1.5707963267949,1.5707963267949,1.5707963267949,0,0}, azi={3.1415926535898,0,1.5707963267949,-1.5707963267949,0,0}) "Calculates direct solar radiation on titled surface for all directions"; Buildings.ThermalZones.ReducedOrder.SolarGain.CorrectionGDoublePane corGDoublePane( n=6, UWin=1.8936557576825381) "Correction factor for solar transmission"; Buildings.ThermalZones.ReducedOrder.RC.TwoElements thermalZoneTwoElements( redeclare package Medium=Buildings.Media.Air, VAir=6523.584267715201, hConExt=2.0490178828959134, hConWin=2.7000000000000006, gWin=0.6699999999999999, ratioWinConRad=0.029999999999999995, nExt=1, RExt={1.1587415793233466e-05}, CExt={816489567.0861814}, hRad=4.999999999999999, AInt=6432.582581857601, hConInt=2.2070734953418447, nInt=1, RInt={8.447576025701151e-06}, CInt={927877114.2946483}, RWin=0.001099369505863836, RExtRem=0.0006263035192430239, energyDynamics=Modelica.Fluid.Types.Dynamics.FixedInitial, extWallRC( thermCapExt( each der_T( fixed=true))), intWallRC( thermCapInt( each der_T( fixed=true))), nOrientations=6, AWin={149.09539311555662,149.09539311555662,13.82023866850661,13.82023866850661,0.0,0.0}, ATransparent={149.09539311555662,149.09539311555662,13.82023866850661,13.82023866850661,0.0,0.0}, AExt={447.28617934666994,447.28617934666994,41.46071600551983,41.46071600551983,911.6022538000002,911.6022538000002}) "Thermal zone"; Buildings.ThermalZones.ReducedOrder.EquivalentAirTemperature.VDI6007WithWindow eqAirTemp( n=6, wfGro=0.3626976838332763, wfWall={0.15582361279765053,0.15582361279765053,0.014443903825944522,0.014443903825944522,0.2967672829195336,0.0}, wfWin={0.4575846758314001,0.4575846758314001,0.04241532416859994,0.04241532416859994,0.0,0.0}, withLongwave=true, aExt=0.5, hConWallOut=20.0, hRad=5.0, hConWinOut=20.0, TGro=286.15) "Computes equivalent air temperature"; Modelica.Blocks.Math.Add solRad[6] "Sums up solar radiation of both directions"; Modelica.Thermal.HeatTransfer.Sources.PrescribedTemperature prescribedTemperature "Prescribed temperature for exterior walls outdoor surface temperature"; Modelica.Thermal.HeatTransfer.Sources.PrescribedTemperature prescribedTemperature1 "Prescribed temperature for windows outdoor surface temperature"; Modelica.Thermal.HeatTransfer.Components.Convection thermalConductorWin "Outdoor convective heat transfer of windows"; Modelica.Thermal.HeatTransfer.Components.Convection thermalConductorWall "Outdoor convective heat transfer of walls"; Modelica.Blocks.Sources.Constant const[6]( each k=0) "Sets sunblind signal to zero (open)"; Buildings.BoundaryConditions.WeatherData.Bus weaBus "Weather data bus"; Modelica.Blocks.Sources.Constant hConWall( k=25.0*2800.69829830438) "Outdoor coefficient of heat transfer for walls"; Modelica.Blocks.Sources.Constant hConWin( k=25.0*325.8312635681265) "Outdoor coefficient of heat transfer for windows"; Modelica.Thermal.HeatTransfer.Sources.PrescribedHeatFlow personsRad "Radiative heat flow of persons"; Modelica.Thermal.HeatTransfer.Sources.PrescribedHeatFlow personsConv "Convective heat flow of persons"; Modelica.Thermal.HeatTransfer.Sources.PrescribedHeatFlow machinesConv "Convective heat flow of machines"; Modelica.Blocks.Sources.CombiTimeTable internalGains( tableOnFile=true, extrapolation=Modelica.Blocks.Types.Extrapolation.Periodic, tableName="Internals", fileName=Modelica.Utilities.Files.loadResource( "modelica://Buildings/Resources/Data/Experimental/DHC/Loads/Examples/BaseClasses/GeojsonExportRC/OfficeBuilding/InternalGains_Office.txt"), columns={2,3,4}) "Table with profiles for persons (radiative and convective) and machines (convective)"; Modelica.Thermal.HeatTransfer.Interfaces.HeatPort_a port_a "Heat port for sensible convective gains"; Buildings.Controls.OBC.CDL.Interfaces.RealOutput TAir( quantity="ThermodynamicTemperature", unit="K", displayUnit="degC") "Room air temperature"; equation connect(eqAirTemp.TEqAirWin,prescribedTemperature1.T); connect(eqAirTemp.TEqAir,prescribedTemperature.T); connect(weaBus.TDryBul,eqAirTemp.TDryBul); connect(internalGains.y[1],personsRad.Q_flow); connect(internalGains.y[2],personsConv.Q_flow); connect(internalGains.y[3],machinesConv.Q_flow); connect(const.y,eqAirTemp.sunblind); connect(HDifTil.HSkyDifTil,corGDoublePane.HSkyDifTil); connect(HDirTil.H,corGDoublePane.HDirTil); connect(HDirTil.H,solRad.u1); connect(HDirTil.inc,corGDoublePane.inc); connect(HDifTil.H,solRad.u2); connect(HDifTil.HGroDifTil,corGDoublePane.HGroDifTil); connect(solRad.y,eqAirTemp.HSol); connect(weaBus,HDifTil[1].weaBus); connect(weaBus,HDirTil[1].weaBus); connect(weaBus,HDifTil[2].weaBus); connect(weaBus,HDirTil[2].weaBus); connect(weaBus,HDifTil[3].weaBus); connect(weaBus,HDirTil[3].weaBus); connect(weaBus,HDifTil[4].weaBus); connect(weaBus,HDirTil[4].weaBus); connect(weaBus,HDifTil[5].weaBus); connect(weaBus,HDirTil[5].weaBus); connect(weaBus,HDifTil[6].weaBus); connect(weaBus,HDirTil[6].weaBus); connect(personsRad.port,thermalZoneTwoElements.intGainsRad); connect(thermalConductorWin.solid,thermalZoneTwoElements.window); connect(prescribedTemperature1.port,thermalConductorWin.fluid); connect(thermalZoneTwoElements.extWall,thermalConductorWall.solid); connect(thermalConductorWall.fluid,prescribedTemperature.port); connect(hConWall.y,thermalConductorWall.Gc); connect(hConWin.y,thermalConductorWin.Gc); connect(weaBus.TBlaSky,eqAirTemp.TBlaSky); connect(machinesConv.port,thermalZoneTwoElements.intGainsConv); connect(personsConv.port,thermalZoneTwoElements.intGainsConv); connect(corGDoublePane.solarRadWinTrans,thermalZoneTwoElements.solRad); connect(port_a,thermalZoneTwoElements.intGainsConv); connect(thermalZoneTwoElements.TAir,TAir); end Office;

model Restroom "This is the simulation model of Restroom within building OfficeBuilding" Buildings.BoundaryConditions.SolarIrradiation.DiffusePerez HDifTil[6]( each outSkyCon=true, each outGroCon=true, til={1.5707963267949,1.5707963267949,1.5707963267949,1.5707963267949,0,0}, azi={3.1415926535898,0,1.5707963267949,-1.5707963267949,0,0}) "Calculates diffuse solar radiation on titled surface for all directions"; Buildings.BoundaryConditions.SolarIrradiation.DirectTiltedSurface HDirTil[6](til={ 1.5707963267949,1.5707963267949,1.5707963267949,1.5707963267949,0,0}, azi={3.1415926535898,0,1.5707963267949,-1.5707963267949,0,0}) "Calculates direct solar radiation on titled surface for all directions"; Buildings.ThermalZones.ReducedOrder.SolarGain.CorrectionGDoublePane corGDoublePane( n=6, UWin=1.8936557576825384) "Correction factor for solar transmission"; Buildings.ThermalZones.ReducedOrder.RC.TwoElements thermalZoneTwoElements( redeclare package Medium=Buildings.Media.Air, VAir=521.8867414172162, hConExt=2.0490178828959125, hConWin=2.7000000000000006, gWin=0.6700000000000002, ratioWinConRad=0.030000000000000002, nExt=1, RExt={0.00014484269741541823}, CExt={65319165.36689455}, hRad=5.000000000000001, AInt=688.5688536876802, hConInt=2.3316080309449254, nInt=1, RInt={9.201439908964808e-05}, CInt={84275425.00414628}, RWin=0.013742118823297953, RExtRem=0.007828793990537798, energyDynamics=Modelica.Fluid.Types.Dynamics.FixedInitial, extWallRC( thermCapExt( each der_T( fixed=true))), intWallRC( thermCapInt( each der_T( fixed=true))), nOrientations=6, AWin={11.92763144924453,11.92763144924453,1.1056190934805288,1.1056190934805288,0.0,0.0}, ATransparent={11.92763144924453,11.92763144924453,1.1056190934805288,1.1056190934805288,0.0,0.0}, AExt={35.782894347733595,35.782894347733595,3.316857280441586,3.316857280441586,72.92818030400002,72.92818030400002}) "Thermal zone"; Buildings.ThermalZones.ReducedOrder.EquivalentAirTemperature.VDI6007WithWindow eqAirTemp( n=6, wfGro=0.3626976838332763, wfWall={0.15582361279765056,0.15582361279765056,0.014443903825944524,0.014443903825944524,0.2967672829195336,0.0}, wfWin={0.45758467583140006,0.45758467583140006,0.04241532416859994,0.04241532416859994,0.0,0.0}, withLongwave=true, aExt=0.5, hConWallOut=20.0, hRad=5.0, hConWinOut=20.0, TGro=286.15) "Computes equivalent air temperature"; Modelica.Blocks.Math.Add solRad[6] "Sums up solar radiation of both directions"; Modelica.Thermal.HeatTransfer.Sources.PrescribedTemperature prescribedTemperature "Prescribed temperature for exterior walls outdoor surface temperature"; Modelica.Thermal.HeatTransfer.Sources.PrescribedTemperature prescribedTemperature1 "Prescribed temperature for windows outdoor surface temperature"; Modelica.Thermal.HeatTransfer.Components.Convection thermalConductorWin "Outdoor convective heat transfer of windows"; Modelica.Thermal.HeatTransfer.Components.Convection thermalConductorWall "Outdoor convective heat transfer of walls"; Modelica.Blocks.Sources.Constant const[6]( each k=0) "Sets sunblind signal to zero (open)"; Buildings.BoundaryConditions.WeatherData.Bus weaBus "Weather data bus"; Modelica.Blocks.Sources.Constant hConWall( k=25.000000000000004*224.0558638643504) "Outdoor coefficient of heat transfer for walls"; Modelica.Blocks.Sources.Constant hConWin( k=24.999999999999996*26.066501085450113) "Outdoor coefficient of heat transfer for windows"; Modelica.Thermal.HeatTransfer.Sources.PrescribedHeatFlow personsRad "Radiative heat flow of persons"; Modelica.Thermal.HeatTransfer.Sources.PrescribedHeatFlow personsConv "Convective heat flow of persons"; Modelica.Thermal.HeatTransfer.Sources.PrescribedHeatFlow machinesConv "Convective heat flow of machines"; Modelica.Blocks.Sources.CombiTimeTable internalGains( tableOnFile=true, extrapolation=Modelica.Blocks.Types.Extrapolation.Periodic, tableName="Internals", fileName=Modelica.Utilities.Files.loadResource( "modelica://Buildings/Resources/Data/Experimental/DHC/Loads/Examples/BaseClasses/GeojsonExportRC/OfficeBuilding/InternalGains_Restroom.txt"), columns={2,3,4}) "Table with profiles for persons (radiative and convective) and machines (convective)"; Modelica.Thermal.HeatTransfer.Interfaces.HeatPort_a port_a "Heat port for sensible convective gains"; Buildings.Controls.OBC.CDL.Interfaces.RealOutput TAir( quantity="ThermodynamicTemperature", unit="K", displayUnit="degC") "Room air temperature"; equation connect(eqAirTemp.TEqAirWin,prescribedTemperature1.T); connect(eqAirTemp.TEqAir,prescribedTemperature.T); connect(weaBus.TDryBul,eqAirTemp.TDryBul); connect(internalGains.y[1],personsRad.Q_flow); connect(internalGains.y[2],personsConv.Q_flow); connect(internalGains.y[3],machinesConv.Q_flow); connect(const.y,eqAirTemp.sunblind); connect(HDifTil.HSkyDifTil,corGDoublePane.HSkyDifTil); connect(HDirTil.H,corGDoublePane.HDirTil); connect(HDirTil.H,solRad.u1); connect(HDirTil.inc,corGDoublePane.inc); connect(HDifTil.H,solRad.u2); connect(HDifTil.HGroDifTil,corGDoublePane.HGroDifTil); connect(solRad.y,eqAirTemp.HSol); connect(weaBus,HDifTil[1].weaBus); connect(weaBus,HDirTil[1].weaBus); connect(weaBus,HDifTil[2].weaBus); connect(weaBus,HDirTil[2].weaBus); connect(weaBus,HDifTil[3].weaBus); connect(weaBus,HDirTil[3].weaBus); connect(weaBus,HDifTil[4].weaBus); connect(weaBus,HDirTil[4].weaBus); connect(weaBus,HDifTil[5].weaBus); connect(weaBus,HDirTil[5].weaBus); connect(weaBus,HDifTil[6].weaBus); connect(weaBus,HDirTil[6].weaBus); connect(personsRad.port,thermalZoneTwoElements.intGainsRad); connect(thermalConductorWin.solid,thermalZoneTwoElements.window); connect(prescribedTemperature1.port,thermalConductorWin.fluid); connect(thermalZoneTwoElements.extWall,thermalConductorWall.solid); connect(thermalConductorWall.fluid,prescribedTemperature.port); connect(hConWall.y,thermalConductorWall.Gc); connect(hConWin.y,thermalConductorWin.Gc); connect(weaBus.TBlaSky,eqAirTemp.TBlaSky); connect(machinesConv.port,thermalZoneTwoElements.intGainsConv); connect(personsConv.port,thermalZoneTwoElements.intGainsConv); connect(corGDoublePane.solarRadWinTrans,thermalZoneTwoElements.solRad); connect(port_a,thermalZoneTwoElements.intGainsConv); connect(thermalZoneTwoElements.TAir,TAir); end Restroom;

model Storage "This is the simulation model of Storage within building OfficeBuilding" Buildings.BoundaryConditions.SolarIrradiation.DiffusePerez HDifTil[6]( each outSkyCon=true, each outGroCon=true, til={1.5707963267949,1.5707963267949,1.5707963267949,1.5707963267949,0,0}, azi={3.1415926535898,0,1.5707963267949,-1.5707963267949,0,0}) "Calculates diffuse solar radiation on titled surface for all directions"; Buildings.BoundaryConditions.SolarIrradiation.DirectTiltedSurface HDirTil[6](til={ 1.5707963267949,1.5707963267949,1.5707963267949,1.5707963267949,0,0}, azi={3.1415926535898,0,1.5707963267949,-1.5707963267949,0,0}) "Calculates direct solar radiation on titled surface for all directions"; Buildings.ThermalZones.ReducedOrder.SolarGain.CorrectionGDoublePane corGDoublePane( n=6, UWin=1.8936557576825388) "Correction factor for solar transmission"; Buildings.ThermalZones.ReducedOrder.RC.TwoElements thermalZoneTwoElements( redeclare package Medium=Buildings.Media.Air, VAir=1957.0752803145606, hConExt=2.049017882895913, hConWin=2.7, gWin=0.67, ratioWinConRad=0.03, nExt=1, RExt={3.86247193107782e-05}, CExt={244946870.12585458}, hRad=4.999999999999999, AInt=1929.7747745572801, hConInt=2.207073495341845, nInt=1, RInt={2.8158586752337178e-05}, CInt={278363134.2883944}, RWin=0.0036645650195461206, RExtRem=0.0020876783974767463, energyDynamics=Modelica.Fluid.Types.Dynamics.FixedInitial, extWallRC( thermCapExt( each der_T( fixed=true))), intWallRC( thermCapInt( each der_T( fixed=true))), nOrientations=6, AWin={44.728617934666985,44.728617934666985,4.146071600551982,4.146071600551982,0.0,0.0}, ATransparent={44.728617934666985,44.728617934666985,4.146071600551982,4.146071600551982,0.0,0.0}, AExt={134.185853804001,134.185853804001,12.438214801655947,12.438214801655947,273.48067614000007,273.48067614000007}) "Thermal zone"; Buildings.ThermalZones.ReducedOrder.EquivalentAirTemperature.VDI6007WithWindow eqAirTemp( n=6, wfGro=0.36269768383327633, wfWall={0.15582361279765056,0.15582361279765056,0.014443903825944526,0.014443903825944526,0.2967672829195335,0.0}, wfWin={0.4575846758314,0.4575846758314,0.04241532416859994,0.04241532416859994,0.0,0.0}, withLongwave=true, aExt=0.5, hConWallOut=20.000000000000004, hRad=4.999999999999999, hConWinOut=19.999999999999996, TGro=286.15) "Computes equivalent air temperature"; Modelica.Blocks.Math.Add solRad[6] "Sums up solar radiation of both directions"; Modelica.Thermal.HeatTransfer.Sources.PrescribedTemperature prescribedTemperature "Prescribed temperature for exterior walls outdoor surface temperature"; Modelica.Thermal.HeatTransfer.Sources.PrescribedTemperature prescribedTemperature1 "Prescribed temperature for windows outdoor surface temperature"; Modelica.Thermal.HeatTransfer.Components.Convection thermalConductorWin "Outdoor convective heat transfer of windows"; Modelica.Thermal.HeatTransfer.Components.Convection thermalConductorWall "Outdoor convective heat transfer of walls"; Modelica.Blocks.Sources.Constant const[6]( each k=0) "Sets sunblind signal to zero (open)"; Buildings.BoundaryConditions.WeatherData.Bus weaBus "Weather data bus"; Modelica.Blocks.Sources.Constant hConWall( k=25.000000000000004*840.2094894913139) "Outdoor coefficient of heat transfer for walls"; Modelica.Blocks.Sources.Constant hConWin( k=25.000000000000004*97.74937907043793) "Outdoor coefficient of heat transfer for windows"; Modelica.Thermal.HeatTransfer.Sources.PrescribedHeatFlow personsRad "Radiative heat flow of persons"; Modelica.Thermal.HeatTransfer.Sources.PrescribedHeatFlow personsConv "Convective heat flow of persons"; Modelica.Thermal.HeatTransfer.Sources.PrescribedHeatFlow machinesConv "Convective heat flow of machines"; Modelica.Blocks.Sources.CombiTimeTable internalGains( tableOnFile=true, extrapolation=Modelica.Blocks.Types.Extrapolation.Periodic, tableName="Internals", fileName=Modelica.Utilities.Files.loadResource( "modelica://Buildings/Resources/Data/Experimental/DHC/Loads/Examples/BaseClasses/GeojsonExportRC/OfficeBuilding/InternalGains_Storage.txt"), columns={2,3,4}) "Table with profiles for persons (radiative and convective) and machines (convective)"; Modelica.Thermal.HeatTransfer.Interfaces.HeatPort_a port_a "Heat port for sensible convective gains"; Buildings.Controls.OBC.CDL.Interfaces.RealOutput TAir( quantity="ThermodynamicTemperature", unit="K", displayUnit="degC") "Room air temperature"; equation connect(eqAirTemp.TEqAirWin,prescribedTemperature1.T); connect(eqAirTemp.TEqAir,prescribedTemperature.T); connect(weaBus.TDryBul,eqAirTemp.TDryBul); connect(internalGains.y[1],personsRad.Q_flow); connect(internalGains.y[2],personsConv.Q_flow); connect(internalGains.y[3],machinesConv.Q_flow); connect(const.y,eqAirTemp.sunblind); connect(HDifTil.HSkyDifTil,corGDoublePane.HSkyDifTil); connect(HDirTil.H,corGDoublePane.HDirTil); connect(HDirTil.H,solRad.u1); connect(HDirTil.inc,corGDoublePane.inc); connect(HDifTil.H,solRad.u2); connect(HDifTil.HGroDifTil,corGDoublePane.HGroDifTil); connect(solRad.y,eqAirTemp.HSol); connect(weaBus,HDifTil[1].weaBus); connect(weaBus,HDirTil[1].weaBus); connect(weaBus,HDifTil[2].weaBus); connect(weaBus,HDirTil[2].weaBus); connect(weaBus,HDifTil[3].weaBus); connect(weaBus,HDirTil[3].weaBus); connect(weaBus,HDifTil[4].weaBus); connect(weaBus,HDirTil[4].weaBus); connect(weaBus,HDifTil[5].weaBus); connect(weaBus,HDirTil[5].weaBus); connect(weaBus,HDifTil[6].weaBus); connect(weaBus,HDirTil[6].weaBus); connect(personsRad.port,thermalZoneTwoElements.intGainsRad); connect(thermalConductorWin.solid,thermalZoneTwoElements.window); connect(prescribedTemperature1.port,thermalConductorWin.fluid); connect(thermalZoneTwoElements.extWall,thermalConductorWall.solid); connect(thermalConductorWall.fluid,prescribedTemperature.port); connect(hConWall.y,thermalConductorWall.Gc); connect(hConWin.y,thermalConductorWin.Gc); connect(weaBus.TBlaSky,eqAirTemp.TBlaSky); connect(machinesConv.port,thermalZoneTwoElements.intGainsConv); connect(personsConv.port,thermalZoneTwoElements.intGainsConv); connect(corGDoublePane.solarRadWinTrans,thermalZoneTwoElements.solRad); connect(port_a,thermalZoneTwoElements.intGainsConv); connect(thermalZoneTwoElements.TAir,TAir); end Storage;