Name | Description |
---|---|
BoundsYorkCalc | Coefficient data record for properties of York cooling tower model |
yorkCalc | Cooling tower performance correlation for YorkCalc model |
Examples | Collection of models that illustrate model use and test models |
BaseClasses | Package with base classes for mathematical functions |
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).
Type | Name | Default | Description |
---|---|---|---|
Temperature | TAirInWB_min | 273.15 - 34.4 | Minimum air inlet wet bulb temperature [K] |
Temperature | TAirInWB_max | 273.15 + 26.7 | Maximum air inlet wet bulb temperature [K] |
Temperature | TRan_min | 1.1 | Minimum range temperature [K] |
Temperature | TRan_max | 22.2 | Minimum range temperature [K] |
Temperature | TApp_min | 1.1 | Minimum approach temperature [K] |
Temperature | TApp_max | 40 | Minimum approach temperature [K] |
MassFraction | FRWat_min | 0.75 | Minimum water flow ratio [1] |
MassFraction | FRWat_max | 1.25 | Maximum water flow ratio [1] |
MassFraction | liqGasRat_max | 8 | Maximum liquid to gas ratio [1] |
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;
Correlation for approach temperature for YorkCalc cooling tower model. See Examples/YorkCalc.mo for the graph.
Type | Name | Default | Description |
---|---|---|---|
Temperature | TWB | Air wet-bulb inlet temperature [K] | |
MassFraction | FRWat | Ratio actual over design water mass flow ratio [1] | |
MassFraction | FRAir | Ratio actual over design air mass flow ratio [1] | |
Nominal condition | |||
Temperature | TRan | Range temperature (water in - water out) [K] |
Type | Name | Description |
---|---|---|
Temperature | TApp | Approach temperature [K] |
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;