def __init__(self): DigitalData.__init__(self) PureData.__init__(self) self.name = "HY45" self.description = "HyCool 45, Potassium formate" self.reference = "Hydro2000" self.Tmax = 20 + 273.15 self.Tmin = -45 + 273.15 self.TminPsat = self.Tmax self.Tbase = 0.00 + 273.15 self.temperature.data = self.getTrange() self.density.source = self.density.SOURCE_COEFFS self.density.type = self.density.INCOMPRESSIBLE_POLYNOMIAL self.density.coeffs = np.array([[1328.7],[-0.530754]]) self.specific_heat.source = self.specific_heat.SOURCE_COEFFS self.specific_heat.type = self.specific_heat.INCOMPRESSIBLE_POLYNOMIAL self.specific_heat.coeffs = np.array([[2.578],[0.0023]])*1e3 self.conductivity.source = self.conductivity.SOURCE_COEFFS self.conductivity.type = self.conductivity.INCOMPRESSIBLE_POLYNOMIAL self.conductivity.coeffs = np.array([[0.4750],[0.001674]]) key = 'Mu' def funcMu(T,x): T = (T-self.Tbase) mPas = 0.08990*np.exp(479.09/(T+126.55)) return mPas / 1e3 self.viscosity.xData,self.viscosity.yData,self.viscosity.data = self.getArray(dataID=key,func=funcMu,x_in=self.temperature.data,y_in=self.concentration.data,DEBUG=self.viscosity.DEBUG) self.viscosity.source = self.viscosity.SOURCE_EQUATION funcMu = None
def __init__(self): DigitalData.__init__(self) self.name = "ExampleDigital" self.description = "some fluid" self.reference = "none" self.Tmin = 273.00; self.Tmax = 500.00; self.xmax = 1.0 self.xmin = 0.0 self.xid = self.ifrac_mass self.TminPsat = self.Tmin; self.temperature.data = self.getTrange() self.concentration.data = self.getxrange() def funcRho(T,x): return T + x*100.0 + T*(x+0.5) self.density.xData,self.density.yData,self.density.data = self.getArray(dataID="D", func=funcRho, x_in=self.temperature.data, y_in=self.concentration.data,DEBUG=self.density.DEBUG) self.density.source = self.density.SOURCE_EQUATION def funcCp(T,x): return T + x*50.0 + T*(x+0.6) self.specific_heat.xData,self.specific_heat.yData,self.specific_heat.data = self.getArray(dataID="C", func=funcCp, x_in=self.temperature.data, y_in=self.concentration.data,DEBUG=self.specific_heat.DEBUG) self.specific_heat.source = self.specific_heat.SOURCE_EQUATION
def __init__(self): DigitalData.__init__(self) PureData.__init__(self) self.name = "HY40" self.description = "HYCOOL 40, Potassium formate" self.reference = "Hydro Chemicals" self.Tmax = 20 + 273.15 self.Tmin = -40 + 273.15 self.TminPsat = self.Tmax self.Tbase = 0.00 + 273.15 self.temperature.data = self.getTrange() self.density.source = self.density.SOURCE_COEFFS self.density.type = self.density.INCOMPRESSIBLE_POLYNOMIAL self.density.coeffs = np.array([[1304.5],[-0.512290]]) self.specific_heat.source = self.specific_heat.SOURCE_COEFFS self.specific_heat.type = self.specific_heat.INCOMPRESSIBLE_POLYNOMIAL self.specific_heat.coeffs = np.array([[2.646],[0.0023]])*1e3 self.conductivity.source = self.conductivity.SOURCE_COEFFS self.conductivity.type = self.conductivity.INCOMPRESSIBLE_POLYNOMIAL self.conductivity.coeffs = np.array([[0.4826],[0.001730]]) key = 'Mu' def funcMu(T,x): T = (T-self.Tbase) return 0.07830*np.exp(498.13/(T+130.25)) self.viscosity.xData,self.viscosity.yData,self.viscosity.data = self.getArray(dataID=key,func=funcMu,x_in=self.temperature.data,y_in=self.concentration.data,DEBUG=self.viscosity.DEBUG) self.viscosity.source = self.viscosity.SOURCE_EQUATION funcMu = None
def __init__(self): DigitalData.__init__(self) PureData.__init__(self) self.name = "HY50" self.description = "HYCOOL 50, Potassium formate" self.reference = "Hydro Chemicals" self.Tmax = 20 + 273.15 self.Tmin = -50 + 273.15 self.TminPsat = self.Tmax self.Tbase = 0.00 + 273.15 self.temperature.data = self.getTrange() self.density.source = self.density.SOURCE_COEFFS self.density.type = self.density.INCOMPRESSIBLE_POLYNOMIAL self.density.coeffs = np.array([[1359.0],[-0.552300]]) self.specific_heat.source = self.specific_heat.SOURCE_COEFFS self.specific_heat.type = self.specific_heat.INCOMPRESSIBLE_POLYNOMIAL self.specific_heat.coeffs = np.array([[2.498],[0.0023]])*1e3 self.conductivity.source = self.conductivity.SOURCE_COEFFS self.conductivity.type = self.conductivity.INCOMPRESSIBLE_POLYNOMIAL self.conductivity.coeffs = np.array([[0.4660],[0.001610]]) key = 'Mu' def funcMu(T,x): T = (T-self.Tbase) res = 0.0491*np.exp(581.12/(T+129.05)) if T > -10: return res + 0.2 else: return res self.viscosity.xData,self.viscosity.yData,self.viscosity.data = self.getArray(dataID=key,func=funcMu,x_in=self.temperature.data,y_in=self.concentration.data,DEBUG=self.viscosity.DEBUG) self.viscosity.source = self.viscosity.SOURCE_EQUATION funcMu = None
def __init__(self): DigitalData.__init__(self) PureData.__init__(self) self.name = "HY30" self.description = "HyCool 30, Potassium formate" self.reference = "Hydro2000" self.Tmax = 50 + 273.15 self.Tmin = -30 + 273.15 self.TminPsat = self.Tmax self.Tbase = 0.00 + 273.15 self.temperature.data = self.getTrange() self.density.source = self.density.SOURCE_COEFFS self.density.type = self.density.INCOMPRESSIBLE_POLYNOMIAL self.density.coeffs = np.array([[1257.5], [-0.475350]]) self.specific_heat.source = self.specific_heat.SOURCE_COEFFS self.specific_heat.type = self.specific_heat.INCOMPRESSIBLE_POLYNOMIAL self.specific_heat.coeffs = np.array([[2.783], [0.0023]]) * 1e3 key = 'Cond' def funcCond(T, x): T = (T - self.Tbase) if T <= 20: return 0.001840 * T + 0.4980 else: return 0.001000 * T + 0.5140 self.conductivity.xData, self.conductivity.yData, self.conductivity.data = self.getArray( dataID=key, func=funcCond, x_in=self.temperature.data, y_in=self.concentration.data, DEBUG=self.conductivity.DEBUG) self.conductivity.source = self.conductivity.SOURCE_EQUATION funcCond = None key = 'Mu' def funcMu(T, x): T = (T - self.Tbase) if T <= 20: return 0.11100 * np.exp(408.17 / (T + 123.15)) else: return T * (0.000295 * T - 0.0441) + 2.6836 self.viscosity.xData, self.viscosity.yData, self.viscosity.data = self.getArray( dataID=key, func=funcMu, x_in=self.temperature.data, y_in=self.concentration.data, DEBUG=self.viscosity.DEBUG) self.viscosity.source = self.viscosity.SOURCE_EQUATION funcMu = None
def __init__(self): DigitalData.__init__(self) PureData.__init__(self) self.name = "HY20" self.description = "HYCOOL 20, Potassium formate" self.reference = "Hydro2000" self.Tmax = 50 + 273.15 self.Tmin = -20 + 273.15 self.TminPsat = self.Tmax self.Tbase = 0.00 + 273.15 self.temperature.data = self.getTrange() self.density.source = self.density.SOURCE_COEFFS self.density.type = self.density.INCOMPRESSIBLE_POLYNOMIAL self.density.coeffs = np.array([[1202.2], [-0.42918]]) self.specific_heat.source = self.specific_heat.SOURCE_COEFFS self.specific_heat.type = self.specific_heat.INCOMPRESSIBLE_POLYNOMIAL self.specific_heat.coeffs = np.array([[2.955], [0.0023]]) * 1e3 key = 'Cond' def funcCond(T, x): T = (T - self.Tbase) if T <= 20: return 0.001978 * T + 0.5172 else: return 0.001005 * T + 0.5368 self.conductivity.xData, self.conductivity.yData, self.conductivity.data = self.getArray( dataID=key, func=funcCond, x_in=self.temperature.data, y_in=self.concentration.data, DEBUG=self.conductivity.DEBUG) self.conductivity.source = self.conductivity.SOURCE_EQUATION funcCond = None key = 'Mu' def funcMu(T, x): T = (T - self.Tbase) if T <= 20: return 0.07190 * np.exp(524.75 / (T + 142.05)) else: return T * (0.0005524 * T - 0.06281) + 2.8536 self.viscosity.xData, self.viscosity.yData, self.viscosity.data = self.getArray( dataID=key, func=funcMu, x_in=self.temperature.data, y_in=self.concentration.data, DEBUG=self.viscosity.DEBUG) self.viscosity.source = self.viscosity.SOURCE_EQUATION funcMu = None
def __init__(self): DigitalData.__init__(self) import CoolProp.CoolProp as CP self.name = "LiBr" self.description = "Lithium-Bromide solution from Patek2006" self.reference = "Patek2006" self.Tmin = 273.00 self.Tmax = 500.00 self.xmax = 0.75 self.xmin = 0.00 self.xid = self.ifrac_mass self.TminPsat = self.Tmin self.temperature.data = self.getTrange() self.concentration.data = self.getxrange() # data = [self.density.data,self.specific_heat.data,self.saturation_pressure.data] # keys = ["D", "C", "Psat"] # # import os # for i in range(len(keys)): # def func(T,x): # return CP.PropsSI(keys[i],'T',T,'P',1e8,self.name+"-{0:.4f}%".format(x*100.0)) # #if os.path.isfile(self.getFile(key)): os.remove(self.getFile(key)) # data[i] = self.getArray(func,keys[i]) key = 'D' def funcD(T,x): return CP.PropsSI(key,'T',T,'P',1e8,self.name+"-{0:.4f}%".format(x*100.0)) self.density.xData,self.density.yData,self.density.data = self.getArray(dataID=key, func=funcD, x_in=self.temperature.data, y_in=self.concentration.data,DEBUG=self.density.DEBUG) self.density.source = self.density.SOURCE_EQUATION key = 'C' def funcC(T,x): return CP.PropsSI(key,'T',T,'P',1e8,self.name+"-{0:.4f}%".format(x*100.0)) self.specific_heat.xData,self.specific_heat.yData,self.specific_heat.data = self.getArray(dataID=key, func=funcC, x_in=self.temperature.data, y_in=self.concentration.data,DEBUG=self.specific_heat.DEBUG) self.specific_heat.source = self.specific_heat.SOURCE_EQUATION key = 'Psat' def funcP(T,x): return CP.PropsSI(key,'T',T,'P',1e8,self.name+"-{0:.4f}%".format(x*100.0)) self.saturation_pressure.xData,self.saturation_pressure.yData,self.saturation_pressure.data = self.getArray(dataID=key, func=funcP, x_in=self.temperature.data, y_in=self.concentration.data,DEBUG=self.saturation_pressure.DEBUG) self.saturation_pressure.source = self.saturation_pressure.SOURCE_EQUATION
def __init__(self): DigitalData.__init__(self) PureData.__init__(self) self.name = "ExampleDigitalPure" self.description = "water at 100 bar" self.reference = "none" self.Tmin = 280.00; self.Tmax = 500.00; self.TminPsat = self.Tmin; self.temperature.data = self.getTrange() self.concentration.data = self.getxrange() import CoolProp.CoolProp as CP def funcD(T,x): return CP.PropsSI('D','T',T,'P',1e7,'water') def funcC(T,x): return CP.PropsSI('C','T',T,'P',1e7,'water') def funcL(T,x): return CP.PropsSI('L','T',T,'P',1e7,'water') def funcV(T,x): return CP.PropsSI('V','T',T,'P',1e7,'water') def funcP(T,x): return CP.PropsSI('P','T',T,'Q',0.0,'water') self.density.xData,self.density.yData,self.density.data = self.getArray(dataID="D", func=funcD, x_in=self.temperature.data, y_in=self.concentration.data,DEBUG=self.density.DEBUG) self.density.source = self.density.SOURCE_EQUATION self.specific_heat.xData,self.specific_heat.yData,self.specific_heat.data = self.getArray(dataID="C", func=funcC, x_in=self.temperature.data, y_in=self.concentration.data,DEBUG=self.specific_heat.DEBUG) self.specific_heat.source = self.specific_heat.SOURCE_EQUATION self.conductivity.xData,self.conductivity.yData,self.conductivity.data = self.getArray(dataID="L", func=funcL, x_in=self.temperature.data, y_in=self.concentration.data,DEBUG=self.conductivity.DEBUG) self.conductivity.source = self.conductivity.SOURCE_EQUATION self.viscosity.xData,self.viscosity.yData,self.viscosity.data = self.getArray(dataID="V", func=funcV, x_in=self.temperature.data, y_in=self.concentration.data,DEBUG=self.viscosity.DEBUG) self.viscosity.source = self.viscosity.SOURCE_EQUATION self.saturation_pressure.xData,self.saturation_pressure.yData,self.saturation_pressure.data = self.getArray(dataID="P", func=funcP, x_in=self.temperature.data, y_in=self.concentration.data,DEBUG=self.saturation_pressure.DEBUG) self.saturation_pressure.source = self.saturation_pressure.SOURCE_EQUATION
def __init__(self): DigitalData.__init__(self) PureData.__init__(self) self.name = "HY50" self.description = "HyCool 50, Potassium formate" self.reference = "Hydro2000" self.Tmax = 20 + 273.15 self.Tmin = -50 + 273.15 self.TminPsat = self.Tmax self.Tbase = 0.00 + 273.15 self.temperature.data = self.getTrange() self.density.source = self.density.SOURCE_COEFFS self.density.type = self.density.INCOMPRESSIBLE_POLYNOMIAL self.density.coeffs = np.array([[1359.0], [-0.552300]]) self.specific_heat.source = self.specific_heat.SOURCE_COEFFS self.specific_heat.type = self.specific_heat.INCOMPRESSIBLE_POLYNOMIAL self.specific_heat.coeffs = np.array([[2.498], [0.0023]]) * 1e3 self.conductivity.source = self.conductivity.SOURCE_COEFFS self.conductivity.type = self.conductivity.INCOMPRESSIBLE_POLYNOMIAL self.conductivity.coeffs = np.array([[0.4660], [0.001610]]) key = 'Mu' def funcMu(T, x): T = (T - self.Tbase) res = 0.0491 * np.exp(581.12 / (T + 129.05)) if T > -10: return res + 0.2 else: return res self.viscosity.xData, self.viscosity.yData, self.viscosity.data = self.getArray( dataID=key, func=funcMu, x_in=self.temperature.data, y_in=self.concentration.data, DEBUG=self.viscosity.DEBUG) self.viscosity.source = self.viscosity.SOURCE_EQUATION funcMu = None
def __init__(self): DigitalData.__init__(self) PureData.__init__(self) self.name = "HY30" self.description = "HyCool 30, Potassium formate" self.reference = "Hydro2000" self.Tmax = 50 + 273.15 self.Tmin = -30 + 273.15 self.TminPsat = self.Tmax self.Tbase = 0.00 + 273.15 self.temperature.data = self.getTrange() self.density.source = self.density.SOURCE_COEFFS self.density.type = self.density.INCOMPRESSIBLE_POLYNOMIAL self.density.coeffs = np.array([[1257.5],[-0.475350]]) self.specific_heat.source = self.specific_heat.SOURCE_COEFFS self.specific_heat.type = self.specific_heat.INCOMPRESSIBLE_POLYNOMIAL self.specific_heat.coeffs = np.array([[2.783],[0.0023]])*1e3 key = 'Cond' def funcCond(T,x): T = (T-self.Tbase) if T <= 20: return 0.001840*T+0.4980 else: return 0.001000*T+0.5140 self.conductivity.xData,self.conductivity.yData,self.conductivity.data = self.getArray(dataID=key,func=funcCond,x_in=self.temperature.data,y_in=self.concentration.data,DEBUG=self.conductivity.DEBUG) self.conductivity.source = self.conductivity.SOURCE_EQUATION funcCond = None key = 'Mu' def funcMu(T,x): T = (T-self.Tbase) if T <= 20: mPas = 0.11100*np.exp(408.17/(T+123.15)) else: mPas = T*(0.000295*T - 0.0441)+2.6836 return mPas / 1e3 self.viscosity.xData,self.viscosity.yData,self.viscosity.data = self.getArray(dataID=key,func=funcMu,x_in=self.temperature.data,y_in=self.concentration.data,DEBUG=self.viscosity.DEBUG) self.viscosity.source = self.viscosity.SOURCE_EQUATION funcMu = None
def __init__(self): DigitalData.__init__(self) PureData.__init__(self) self.name = "HY20" self.description = "HYCOOL 20, Potassium formate" self.reference = "Hydro2000" self.Tmax = 50 + 273.15 self.Tmin = -20 + 273.15 self.TminPsat = self.Tmax self.Tbase = 0.00 + 273.15 self.temperature.data = self.getTrange() self.density.source = self.density.SOURCE_COEFFS self.density.type = self.density.INCOMPRESSIBLE_POLYNOMIAL self.density.coeffs = np.array([[1202.2],[-0.42918]]) self.specific_heat.source = self.specific_heat.SOURCE_COEFFS self.specific_heat.type = self.specific_heat.INCOMPRESSIBLE_POLYNOMIAL self.specific_heat.coeffs = np.array([[2.955],[0.0023]])*1e3 key = 'Cond' def funcCond(T,x): T = (T-self.Tbase) if T <= 20: return 0.001978*T+0.5172 else: return 0.001005*T+0.5368 self.conductivity.xData,self.conductivity.yData,self.conductivity.data = self.getArray(dataID=key,func=funcCond,x_in=self.temperature.data,y_in=self.concentration.data,DEBUG=self.conductivity.DEBUG) self.conductivity.source = self.conductivity.SOURCE_EQUATION funcCond = None key = 'Mu' def funcMu(T,x): T = (T-self.Tbase) if T <= 20: mPas = 0.07190*np.exp(524.75/(T+142.05)) else: mPas = T*(0.0005524*T - 0.06281)+2.8536 return mPas / 1e3 self.viscosity.xData,self.viscosity.yData,self.viscosity.data = self.getArray(dataID=key,func=funcMu,x_in=self.temperature.data,y_in=self.concentration.data,DEBUG=self.viscosity.DEBUG) self.viscosity.source = self.viscosity.SOURCE_EQUATION funcMu = None
def __init__(self): DigitalData.__init__(self) PureData.__init__(self) self.name = "HY40" self.description = "HyCool 40, Potassium formate" self.reference = "Hydro2000" self.Tmax = 20 + 273.15 self.Tmin = -40 + 273.15 self.TminPsat = self.Tmax self.Tbase = 0.00 + 273.15 self.temperature.data = self.getTrange() self.density.source = self.density.SOURCE_COEFFS self.density.type = self.density.INCOMPRESSIBLE_POLYNOMIAL self.density.coeffs = np.array([[1304.5], [-0.512290]]) self.specific_heat.source = self.specific_heat.SOURCE_COEFFS self.specific_heat.type = self.specific_heat.INCOMPRESSIBLE_POLYNOMIAL self.specific_heat.coeffs = np.array([[2.646], [0.0023]]) * 1e3 self.conductivity.source = self.conductivity.SOURCE_COEFFS self.conductivity.type = self.conductivity.INCOMPRESSIBLE_POLYNOMIAL self.conductivity.coeffs = np.array([[0.4826], [0.001730]]) key = 'Mu' def funcMu(T, x): T = (T - self.Tbase) return 0.07830 * np.exp(498.13 / (T + 130.25)) self.viscosity.xData, self.viscosity.yData, self.viscosity.data = self.getArray( dataID=key, func=funcMu, x_in=self.temperature.data, y_in=self.concentration.data, DEBUG=self.viscosity.DEBUG) self.viscosity.source = self.viscosity.SOURCE_EQUATION funcMu = None