model BuildingTimeSeriesAtETS "Example model for time series load with external read-in file." extends Modelica.Icons.Example; package MediumSte = Buildings.Media.Steam (p_default=400000, T_default=273.15+143.61, h_default=2738100) "Steam medium"; package MediumWat = Buildings.Media.Specialized.Water.TemperatureDependentDensity "Water medium"; parameter Modelica.Units.SI.AbsolutePressure pSat=400000 "Saturation pressure"; parameter Modelica.Units.SI.Temperature TSat= MediumSte.saturationTemperature(pSat) "Saturation temperature"; parameter Modelica.Units.SI.Power Q_flow_nominal= 2e4 "Nominal heat flow rate"; Buildings.Experimental.DHC.Loads.Steam.BuildingTimeSeriesAtETS bui( redeclare package MediumSte = MediumSte, redeclare package MediumWat = MediumWat, have_prv=true, pLow_nominal=200000, energyDynamics=Modelica.Fluid.Types.Dynamics.FixedInitial, dp_nominal=3000, tableOnFile=false, final Q_flow_nominal=Q_flow_nominal, final pSte_nominal=pSat, QHeaLoa=[0,Q_flow_nominal*0.2; 6,Q_flow_nominal; 16,Q_flow_nominal*0.1; 24,Q_flow_nominal*0.2], columns={2}, smoothness=Modelica.Blocks.Types.Smoothness.ContinuousDerivative, timeScale(displayUnit="h") = 3600, show_T=true) "Building model with time series load at the ETS"; Buildings.Fluid.Sources.Boundary_pT souSte( redeclare final package Medium = MediumSte, p(displayUnit="Pa") = pSat, T=TSat, nPorts=1) "Steam source"; Buildings.Fluid.Sources.Boundary_pT watSin( redeclare final package Medium = MediumWat, p=101325, nPorts=1) "Water sink"; equation connect(souSte.ports[1], bui.port_a); connect(bui.port_b, watSin.ports[1]); end BuildingTimeSeriesAtETS;