Name | Description |
---|---|
PartialStaticTwoPortCoolingTower | |
PartialStaticTwoPortCoolingTowerWetBulb | Partial test model for cooling tower with wet bulb temperature as potential for heat transfer |
Type | Name | Default | Description |
---|---|---|---|
PartialStaticTwoPortCoolingTower | tow | redeclare Buildings.Fluids.H... | Cooling tower |
Nominal condition | |||
MassFlowRate | mWat0_flow | 0.15 | Design air flow rate [kg/s] |
MassFlowRate | mAir0_flow | 1.64*1.2 | Design air flow rate [kg/s] |
partial model PartialStaticTwoPortCoolingTower package Medium_W = Buildings.Media.ConstantPropertyLiquidWater; parameter Modelica.SIunits.MassFlowRate mWat0_flow = 0.15 "Design air flow rate"; parameter Modelica.SIunits.MassFlowRate mAir0_flow = 1.64*1.2 "Design air flow rate"; Modelica.Blocks.Sources.Constant TWat(k=273.15 + 35) "Water temperature"; replaceable Buildings.Fluids.HeatExchangers.CoolingTowers.BaseClasses.PartialStaticTwoPortCoolingTower tow( redeclare package Medium = Medium_W, m_flow_nominal=mWat0_flow, dp_nominal=10) "Cooling tower"; Modelica_Fluid.Sources.Boundary_pT sin_1( T=283.15, redeclare package Medium = Medium_W, p=101325, nPorts=1); Modelica_Fluid.Sources.Boundary_pT sou_1( redeclare package Medium = Medium_W, nPorts=1, use_p_in=true, use_T_in=true, p=101335, T=293.15); Modelica.Blocks.Sources.Constant PWatIn(k=101335); Modelica.Blocks.Sources.Sine TOut(amplitude=10, offset=293.15) "Outside air temperature"; inner Modelica_Fluid.System system; equation connect(TWat.y, sou_1.T_in); connect(PWatIn.y, sou_1.p_in); connect(sou_1.ports[1], tow.port_a); connect(tow.port_b, sin_1.ports[1]); end PartialStaticTwoPortCoolingTower;
Type | Name | Default | Description |
---|---|---|---|
PartialStaticTwoPortCoolingTower | tow | redeclare Buildings.Fluids.H... | Cooling tower |
Nominal condition | |||
MassFlowRate | mWat0_flow | 0.15 | Design air flow rate [kg/s] |
MassFlowRate | mAir0_flow | 1.64*1.2 | Design air flow rate [kg/s] |
model PartialStaticTwoPortCoolingTowerWetBulb "Partial test model for cooling tower with wet bulb temperature as potential for heat transfer" import Buildings; extends PartialStaticTwoPortCoolingTower; package Medium_A = Buildings.Media.PerfectGases.MoistAir; Modelica.Blocks.Sources.Constant phi(k=0.5) "Relative air humidity"; Buildings.Utilities.Psychrometrics.WetBulbTemperature wetBulTem( redeclare package Medium = Medium_A) "Model for wet bulb temperature"; Modelica.Blocks.Sources.Constant PAtm(k=101325) "Atmospheric pressure"; equation connect(PAtm.y, wetBulTem.p); connect(TOut.y, wetBulTem.TDryBul); connect(phi.y, wetBulTem.phi); connect(wetBulTem.TWetBul, tow.TAir); end PartialStaticTwoPortCoolingTowerWetBulb;