Buildings.Fluid.HeatExchangers.CoolingTowers.Correlations

Package with correlations for cooling tower performance

Package Content

NameDescription
Buildings.Fluid.HeatExchangers.CoolingTowers.Correlations.BoundsYorkCalc BoundsYorkCalc Coefficient data record for properties of York cooling tower model
Buildings.Fluid.HeatExchangers.CoolingTowers.Correlations.yorkCalc yorkCalc Cooling tower performance correlation for YorkCalc model
Buildings.Fluid.HeatExchangers.CoolingTowers.Correlations.Examples Examples Collection of models that illustrate model use and test models
Buildings.Fluid.HeatExchangers.CoolingTowers.Correlations.BaseClasses BaseClasses Package with base classes for mathematical functions


Buildings.Fluid.HeatExchangers.CoolingTowers.Correlations.BoundsYorkCalc Buildings.Fluid.HeatExchangers.CoolingTowers.Correlations.BoundsYorkCalc

Coefficient data record for properties of York cooling tower model

Information


This data record contains the bounds for the YorkCalc cooling tower correlations.

Extends from BaseClasses.Bounds (Coefficient data record for properties of cooling tower model).

Parameters

TypeNameDefaultDescription
TemperatureTAirInWB_min273.15 - 34.4Minimum air inlet wet bulb temperature [K]
TemperatureTAirInWB_max273.15 + 26.7Maximum air inlet wet bulb temperature [K]
TemperatureTRan_min1.1Minimum range temperature [K]
TemperatureTRan_max22.2Minimum range temperature [K]
TemperatureTApp_min1.1Minimum approach temperature [K]
TemperatureTApp_max40Minimum approach temperature [K]
MassFractionFRWat_min0.75Minimum water flow ratio [1]
MassFractionFRWat_max1.25Maximum water flow ratio [1]
MassFractionliqGasRat_max8Maximum liquid to gas ratio [1]

Modelica definition

record BoundsYorkCalc 
  "Coefficient data record for properties of York cooling tower model"
  extends BaseClasses.Bounds(TAirInWB_min = 273.15-34.4,
  TAirInWB_max = 273.15+26.7,
  TRan_min =     1.1,
  TRan_max =     22.2,
  TApp_min =     1.1,
  TApp_max =     40,
  FRWat_min =     0.75,
  FRWat_max =    1.25,
  liqGasRat_max = 8);

end BoundsYorkCalc;

Buildings.Fluid.HeatExchangers.CoolingTowers.Correlations.yorkCalc

Cooling tower performance correlation for YorkCalc model

Information


Correlation for approach temperature for YorkCalc cooling tower model. See Examples/YorkCalc.mo for the graph.

Inputs

TypeNameDefaultDescription
TemperatureTWB Air wet-bulb inlet temperature [K]
MassFractionFRWat Ratio actual over design water mass flow ratio [1]
MassFractionFRAir Ratio actual over design air mass flow ratio [1]
Nominal condition
TemperatureTRan Range temperature (water in - water out) [K]

Outputs

TypeNameDescription
TemperatureTAppApproach temperature [K]

Modelica definition

function yorkCalc 
  "Cooling tower performance correlation for YorkCalc model"

  input Modelica.SIunits.Temperature TRan 
    "Range temperature (water in - water out)";
  input Modelica.SIunits.Temperature TWB "Air wet-bulb inlet temperature";
  input Modelica.SIunits.MassFraction FRWat 
    "Ratio actual over design water mass flow ratio";
  input Modelica.SIunits.MassFraction FRAir 
    "Ratio actual over design air mass flow ratio";

  output Modelica.SIunits.Temperature TApp "Approach temperature";

protected 
  Modelica.SIunits.Conversions.NonSIunits.Temperature_degC TWB_degC 
    "Air wet-bulb inlet temperature";
  Modelica.SIunits.MassFraction liqGasRat "Liquid to gas mass flow ratio";
  constant Real c[:] = {-0.359741205, -0.055053608,  0.0023850432,
                      0.173926877, -0.0248473764,  0.00048430224,
                      -0.005589849456,  0.0005770079712, -0.00001342427256,
                      2.84765801111111, -0.121765149,  0.0014599242,
                      1.680428651, -0.0166920786, -0.0007190532,
                     -0.025485194448,  0.0000487491696,  0.00002719234152,
                     -0.0653766255555556, -0.002278167,  0.0002500254,
                     -0.0910565458,  0.00318176316,  0.000038621772,
                     -0.0034285382352,  0.00000856589904, -0.000001516821552} 
    "Polynomial coefficients";

algorithm 
  TWB_degC :=Modelica.SIunits.Conversions.to_degC(TWB);
  liqGasRat := FRWat/FRAir;
  TApp := c[1] +
       c[2] * TWB_degC +
       c[3] * TWB_degC * TWB_degC +
       c[4] * TRan +
       c[5] * TWB_degC * TRan +
       c[6] * TWB_degC * TWB_degC * TRan +
       c[7] * TRan * TRan +
       c[8] * TWB_degC * TRan * TRan +
       c[9] * TWB_degC * TWB_degC * TRan * TRan +
       c[10] * liqGasRat +
       c[11] * TWB_degC * liqGasRat +
       c[12] * TWB_degC * TWB_degC * liqGasRat +
       c[13] * TRan * liqGasRat +
       c[14] * TWB_degC * TRan * liqGasRat +
       c[15] * TWB_degC * TWB_degC * TRan * liqGasRat +
       c[16] * TRan * TRan * liqGasRat +
       c[17] * TWB_degC * TRan * TRan * liqGasRat +
       c[18] * TWB_degC * TWB_degC * TRan * TRan * liqGasRat +
       c[19] * liqGasRat * liqGasRat +
       c[20] * TWB_degC * liqGasRat * liqGasRat +
       c[21] * TWB_degC * TWB_degC * liqGasRat * liqGasRat +
       c[22] * TRan * liqGasRat * liqGasRat +
       c[23] * TWB_degC * TRan * liqGasRat * liqGasRat +
       c[24] * TWB_degC * TWB_degC * TRan * liqGasRat * liqGasRat +
       c[25] * TRan * TRan * liqGasRat * liqGasRat +
       c[26] * TWB_degC * TRan * TRan * liqGasRat * liqGasRat +
       c[27] * TWB_degC * TWB_degC * TRan * TRan * liqGasRat * liqGasRat;
end yorkCalc;

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