partial model PartialElectric "Base class for test model of chiller electric EIR" package Medium1 = Buildings.Media.Water "Medium model"; package Medium2 = Buildings.Media.Water "Medium model"; parameter Modelica.Units.SI.Power P_nominal "Nominal compressor power (at y=1)"; parameter Modelica.Units.SI.TemperatureDifference dTEva_nominal=10 "Temperature difference evaporator inlet-outlet"; parameter Modelica.Units.SI.TemperatureDifference dTCon_nominal=10 "Temperature difference condenser outlet-inlet"; parameter Real COPc_nominal = 3 "Chiller COP"; parameter Modelica.Units.SI.MassFlowRate mEva_flow_nominal "Nominal mass flow rate at evaporator"; parameter Modelica.Units.SI.MassFlowRate mCon_flow_nominal "Nominal mass flow rate at condenser"; Buildings.Fluid.Sources.MassFlowSource_T sou1( redeclare package Medium = Medium1, use_T_in=true, m_flow=mCon_flow_nominal, T=298.15) "Mass flow source"; Buildings.Fluid.Sources.MassFlowSource_T sou2( redeclare package Medium = Medium2, use_T_in=true, m_flow=mEva_flow_nominal, T=291.15) "Mass flow source"; Buildings.Fluid.Sources.Boundary_pT sin1( redeclare package Medium = Medium1, nPorts=1) "Pressure source"; Buildings.Fluid.Sources.Boundary_pT sin2( redeclare package Medium = Medium2, nPorts=1) "Pressure source"; Modelica.Blocks.Sources.Ramp TSet( duration=3600, startTime=3*3600, offset=273.15 + 10, height=8) "Set point for leaving chilled water temperature"; Modelica.Blocks.Sources.Ramp TCon_in( height=10, offset=273.15 + 20, duration=3600, startTime=2*3600) "Condenser inlet temperature"; Modelica.Blocks.Sources.Ramp TEva_in( offset=273.15 + 15, height=5, startTime=3600, duration=3600) "Evaporator inlet temperature"; Modelica.Blocks.Sources.Pulse pulse(period=3600/2) "Pulse signal generator"; Modelica.Blocks.Logical.GreaterThreshold greaterThreshold(threshold=0.5) "Greater threshold"; Buildings.Fluid.FixedResistances.PressureDrop res1( redeclare package Medium = Medium1, m_flow_nominal=mCon_flow_nominal, dp_nominal=6000) "Flow resistance"; Buildings.Fluid.FixedResistances.PressureDrop res2( dp_nominal=6000, redeclare package Medium = Medium2, m_flow_nominal=mEva_flow_nominal) "Flow resistance"; equation connect(TCon_in.y, sou1.T_in); connect(TEva_in.y, sou2.T_in); connect(greaterThreshold.u, pulse.y); connect(res1.port_b, sin1.ports[1]); connect(res2.port_b, sin2.ports[1]); end PartialElectric;

partial model PartialElectric_AirCooled "Base class for test model of chiller electric EIR with air-cooled condenser" package Medium1 = Buildings.Media.Air "Medium model"; package Medium2 = Buildings.Media.Water "Medium model"; parameter Modelica.Units.SI.Power P_nominal "Nominal compressor power (at y=1)"; parameter Modelica.Units.SI.TemperatureDifference dTEva_nominal=10 "Temperature difference evaporator inlet-outlet"; parameter Modelica.Units.SI.TemperatureDifference dTCon_nominal=10 "Temperature difference condenser outlet-inlet"; parameter Real COPc_nominal = 3 "Chiller COP"; parameter Modelica.Units.SI.MassFlowRate mEva_flow_nominal "Nominal mass flow rate at evaporator"; parameter Modelica.Units.SI.MassFlowRate mCon_flow_nominal "Nominal mass flow rate at condenser"; Sources.MassFlowSource_WeatherData sou1( redeclare package Medium = Medium1, m_flow=mCon_flow_nominal) "Weather data"; Buildings.Fluid.Sources.MassFlowSource_T sou2( redeclare package Medium = Medium2, use_T_in=true, m_flow=mEva_flow_nominal, T=291.15) "Mass flow source"; Buildings.Fluid.Sources.Boundary_pT sin1( redeclare package Medium = Medium1, nPorts=1) "Pressure source"; Buildings.Fluid.Sources.Boundary_pT sin2( redeclare package Medium = Medium2, nPorts=1) "Pressure source"; Modelica.Blocks.Sources.Ramp TSet( duration=3600*6, startTime=197.25*24*3600, offset=273.15 + 5, height=5) "Set point for leaving chilled water temperature"; Modelica.Blocks.Sources.Ramp TEva_in( offset=273.15 + 10, height=6, startTime=197*24*3600, duration=12*3600) "Evaporator inlet temperature"; Modelica.Blocks.Sources.Pulse pulse(period=3600/2) "Pulse signal"; Modelica.Blocks.Logical.GreaterThreshold greaterThreshold(threshold=0.5) "Greater threshold"; Buildings.Fluid.FixedResistances.PressureDrop res1( redeclare package Medium = Medium1, m_flow_nominal=mCon_flow_nominal, dp_nominal=6000) "Flow resistance"; Buildings.Fluid.FixedResistances.PressureDrop res2( dp_nominal=6000, redeclare package Medium = Medium2, m_flow_nominal=mEva_flow_nominal) "Flow resistance"; BoundaryConditions.WeatherData.ReaderTMY3 weaDat(filNam= Modelica.Utilities.Files.loadResource( "modelica://Buildings/Resources/weatherdata/USA_IL_Chicago-OHare.Intl.AP.725300_TMY3.mos")); equation connect(TEva_in.y, sou2.T_in); connect(greaterThreshold.u, pulse.y); connect(res1.port_b, sin1.ports[1]); connect(res2.port_b, sin2.ports[1]); connect(weaDat.weaBus, sou1.weaBus); end PartialElectric_AirCooled;