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MethylOctadecanoate Methods

The MethylOctadecanoate type exposes the following members.

Methods
 NameDescription
Public methodEqualsDetermines whether the specified object is equal to the current object.
(Inherited from Object)
Protected methodFinalizeAllows an object to try to free resources and perform other cleanup operations before it is reclaimed by garbage collection.
(Inherited from Object)
Public methodGetDeltaFromMassDensity Gets the reduced density by density / ReducingMassDensity.
(Inherited from HelmholtzEquationOfState)
Public methodGetDeltaFromMoleDensity Gets the reduced density by density / ReducingMassDensity.
(Inherited from HelmholtzEquationOfState)
Public methodGetHashCodeServes as the default hash function.
(Inherited from Object)
Public methodGetTauFromTemperature Gets the inverse reduced temperature by ReducingTemperature / temperature.
(Inherited from HelmholtzEquationOfState)
Public methodGetTypeGets the Type of the current instance.
(Inherited from Object)
Public methodIsentropicDerivativeOfMassSpecificVolumeWrtPressure_FromMoleDensityAndTemperature Gets the isentropic (adiabatic) derivative of the mass specific volume w.r.t. pressure from mole density and temperature.
(Inherited from HelmholtzEquationOfState)
Public methodIsentropicDerivativeOfMoleSpecificVolumeWrtPressure_FromMoleDensityAndTemperature Gets the isentropic (adiabatic) derivative of the mole specific volume w.r.t. pressure from mole density and temperature.
(Inherited from HelmholtzEquationOfState)
Public methodIsothermalCompressibility_FromMassDensityAndTemperature Gets the isothermal compressibility in 1/Pa from mass density (kg/m³) and temperature (K). Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodIsothermalCompressibility_FromMoleDensityAndTemperature Gets the isothermal compressibility in 1/Pa from mole density (mol/m³) and temperature (K). Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodIsothermalCompressionalModulus_FromMassDensityAndTemperature Gets the isothermal compressional modulus K in Pa from density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodIsothermalCompressionalModulus_FromMoleDensityAndTemperature Gets the isothermal compressional modulus in Pa from density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodIsothermalDerivativePressureWrtMassDensity_FromMassDensityAndTemperature Gets the derivative of pressure w.r.t. the mass density at isothermal conditions. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodIsothermalDerivativePressureWrtMoleDensity_FromMoleDensityAndTemperature Gets the derivative of pressure w.r.t. the mole density at isothermal conditions. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodMassDensity_FromMoleDensity Gets the mass density (in kg/m³) from mole density (in mol/m³).
(Inherited from HelmholtzEquationOfState)
Public methodMassDensity_FromPressureAndTemperature(Double, Double, Double) Gets the mass density for a given pressure and temperature.
(Inherited from HelmholtzEquationOfState)
Public methodMassDensity_FromPressureAndTemperature(Double, Double, Double, Double) Gets the mole density from a given pressure and temperature.
(Inherited from HelmholtzEquationOfState)
Public methodMassSpecificEnthalpy_FromMassDensityAndTemperature Get the enthalpy from a given density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodMassSpecificEnthalpy_FromMoleDensityAndTemperature Get the enthalpy from a given density and temperature.
(Inherited from HelmholtzEquationOfState)
Public methodMassSpecificEntropy_FromMassDensityAndTemperature Get the entropy from a given mole density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodMassSpecificEntropy_FromMoleDensityAndTemperature Get the entropy from a given mole density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodMassSpecificGibbsEnergy_FromMassDensityAndTemperature Get the mass specific Gibbs energy from a given mass density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodMassSpecificGibbsEnergy_FromMoleDensityAndTemperature Get the mass specific Gibbs energy from a given mass density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodMassSpecificHelmholtzEnergy_FromMassDensityAndTemperature Get the Helmholtz energy from a given mass density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodMassSpecificHelmholtzEnergy_FromMoleDensityAndTemperature Get the mass specific Helmholtz energy from a given mass density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodMassSpecificInternalEnergy_FromMassDensityAndTemperature Get the internal energy from a given density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodMassSpecificInternalEnergy_FromMoleDensityAndTemperature Get the internal energy from a given density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodMassSpecificIsobaricHeatCapacity_FromMassDensityAndTemperature Gets the isobaric heat capacity from a given density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodMassSpecificIsobaricHeatCapacity_FromMoleDensityAndTemperature Gets the isobaric heat capacity from a given density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodMassSpecificIsochoricHeatCapacity_FromMassDensityAndTemperature Get the isochoric heat capacity from a given density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodMassSpecificIsochoricHeatCapacity_FromMoleDensityAndTemperature Get the isochoric heat capacity from a given density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Protected methodMeltingPressure_Type1
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Protected methodMeltingPressure_Type2
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Protected methodMeltingPressure_TypeH(Double) Melting pressure for water. Note that more than one pressure value is possible for a given temperature. If in doubt, the lowest pressure solution is returned.
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Protected methodMeltingPressure_TypeH(Double, Int32)
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Public methodMeltingPressureEstimate_FromTemperature
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Public methodMeltingPressureEstimateAndDerivativeWrtTemperature_FromTemperature Gets an estimate value of the melting pressure and the derivative of the pressure w.r.t. temperature for a given temperature. The estimated value should have an relative accuracy of 5% plus an absolute error of about 100 Pa.
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Public methodMeltingTemperatureEstimate_FromPressure Gets an estimate of the melting temperature for a given pressure, using Newton-Raphson iteration.
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Protected methodMemberwiseCloneCreates a shallow copy of the current Object.
(Inherited from Object)
Public methodMoleDensity_FromMassDensity Gets the mole density (in mol/m³) from mass density (in kg/m³).
(Inherited from HelmholtzEquationOfState)
Public methodMoleDensity_FromPressureAndTemperature(Double, Double, Double) Get the mole density for a given pressure and temperature.
(Inherited from HelmholtzEquationOfState)
Public methodMoleDensity_FromPressureAndTemperature(Double, Double, Double, Double) Gets the mole density from a given pressure and temperature.
(Inherited from HelmholtzEquationOfState)
Public methodMoleDensityEstimates_FromPressureAndTemperature Gets an estimate of the mole densities at a given pressure and temperature.
(Inherited from HelmholtzEquationOfStateOfPureFluids)
Public methodMoleSpecificEnthalpy_FromMassDensityAndTemperature Get the enthalpy from a given density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodMoleSpecificEnthalpy_FromMoleDensityAndTemperature Get the enthalpy from a given density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodMoleSpecificEntropy_FromMassDensityAndTemperature Get the entropy from a given mole density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodMoleSpecificEntropy_FromMoleDensityAndTemperature Get the entropy from a given mole density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodMoleSpecificGibbsEnergy_FromMassDensityAndTemperature Get the mole specific Gibbs energy from a given mass density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodMoleSpecificGibbsEnergy_FromMoleDensityAndTemperature Get the mole specific Gibbs energy from a given mass density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodMoleSpecificHelmholtzEnergy_FromMassDensityAndTemperature Get the Helmholtz energy from a given mass density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodMoleSpecificHelmholtzEnergy_FromMoleDensityAndTemperature Get the Helmholtz energy from a given mole density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodMoleSpecificInternalEnergy_FromMassDensityAndTemperature Get the internal energy from a given density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodMoleSpecificInternalEnergy_FromMoleDensityAndTemperature Get the internal energy from a given density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodMoleSpecificIsobaricHeatCapacity_FromMassDensityAndTemperature Gets the isobaric heat capacity from a given density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodMoleSpecificIsobaricHeatCapacity_FromMoleDensityAndTemperature Gets the isobaric heat capacity from a given density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodMoleSpecificIsochoricHeatCapacity_FromMassDensityAndTemperature Get the mole specific isochoric heat capacity from a given density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodMoleSpecificIsochoricHeatCapacity_FromMoleDensityAndTemperature Get the mole specific isochoric heat capacity from a given density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodPhi0_OfReducedVariables Phi0s the of reduced variables. (Page 1541, Table 28 in [2])
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Public methodPhi0_tau_OfReducedVariables First derivative of Phi0 the of reduced variables with respect to the inverse reduced temperature. (Page 1541, Table 28)
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Public methodPhi0_tautau_OfReducedVariables Second derivative of Phi0 the of reduced variables with respect to the inverse reduced temperature. (Page 1541, Table 28)
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Public methodPhiR_delta_OfReducedVariables Calculates the first derivative of the residual part of the dimensionless Helmholtz energy with respect to the reduced density delta.
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Public methodPhiR_deltadelta_OfReducedVariables Calculates the second derivative of the residual part of the dimensionless Helmholtz energy with respect to the reduced density delta.
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Public methodPhiR_deltatau_OfReducedVariables Calculates the derivative of the residual part of the dimensionless Helmholtz energy with respect to the reduced density delta and the inverse reduced temperature tau.
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Public methodPhiR_OfReducedVariables Calculates the residual part of the dimensionless Helmholtz energy in dependence on reduced density and reduced inverse temperature.
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Public methodPhiR_tau_OfReducedVariables Calculates the first derivative of the residual part of the dimensionless Helmholtz energy with respect to the inverse reduced temperature.
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Public methodPhiR_tautau_OfReducedVariables Calculates the second derivative of the residual part of the dimensionless Helmholtz energy with respect to the inverse reduced temperature.
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Public methodPressure_FromMassDensityAndTemperature Get the pressure from a given density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodPressure_FromMoleDensityAndTemperature Gets the pressure from a given molar density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodSaturatedLiquidAndVaporMoleDensitiesAndPressure_FromTemperature(Double, Double) Gets the saturated liquid mole density, the saturated vapor mole density, and the pressure for a given temperature. This is done by iteration, using multivariate Newton-Raphson.
(Inherited from HelmholtzEquationOfStateOfPureFluids)
Public methodSaturatedLiquidAndVaporMoleDensitiesAndPressure_FromTemperature(Double, Double, Double, Double) Gets the saturated liquid mole density, the saturated vapor mole density, and the pressure for a given temperature. This is done by iteration, using multivariate Newton-Raphson.
(Inherited from HelmholtzEquationOfStateOfPureFluids)
Public methodSaturatedLiquidAndVaporMoleDensitiesAndTemperature_FromPressure Gets the saturated liquid mole density, the saturated vapor mole density, and the temperature for a given pressure. This is done by iteration, using multivariate Newton-Raphson.
(Inherited from HelmholtzEquationOfStateOfPureFluids)
Public methodSaturatedLiquidMoleDensityEstimate_FromTemperature Gets an estimate for the saturated liquid mole density in dependence on the temperature.
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Protected methodSaturatedMoleDensity_Type1
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Protected methodSaturatedMoleDensity_Type2
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Protected methodSaturatedMoleDensity_Type3
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Protected methodSaturatedMoleDensity_Type4
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Protected methodSaturatedMoleDensity_Type5
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Protected methodSaturatedMoleDensity_Type6
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Public methodSaturatedVaporMoleDensityEstimate_FromTemperature Gets an estimate for the saturated vapor mole density in dependence on the temperature.
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Protected methodSaturatedVaporPressure_Type1
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Protected methodSaturatedVaporPressure_Type2
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Protected methodSaturatedVaporPressure_Type3
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Protected methodSaturatedVaporPressure_Type4
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Protected methodSaturatedVaporPressure_Type5
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Protected methodSaturatedVaporPressure_Type6
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Public methodSaturatedVaporPressureEstimate_FromTemperature Gets an estimate for the saturated vapor pressure in dependence on the temperature.
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Public methodSaturatedVaporPressureEstimateAndDerivativeWrtTemperature_FromTemperature Gets an estimate for the saturated vapor pressure in dependence on the temperature as well as for the derivative of the saturated vapor pressure with respect to the temperature.
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Public methodSaturatedVaporTemperature_FromPressure Get the temperature at the liquid/vapor interface for a given pressure by iteration (Newton-Raphson).
(Inherited from HelmholtzEquationOfStateOfPureFluids)
Public methodSpeedOfSound_FromMassDensityAndTemperature Get the speed of sound from a given density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Public methodSpeedOfSound_FromMoleDensityAndTemperature Get the speed of sound from a given density and temperature. Attention - unchecked function: it is presumed, but not checked (!), that the given parameter combination describes a single phase fluid!.
(Inherited from HelmholtzEquationOfState)
Protected methodSublimationPressure_Type1
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Protected methodSublimationPressure_Type2
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Protected methodSublimationPressure_Type3
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Public methodSublimationPressureEstimate_FromTemperature
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Public methodSublimationPressureEstimateAndDerivativeWrtTemperature_FromTemperature
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Public methodSublimationTemperatureEstimate_FromPressure Gets an estimate of the sublimation temperature for a given pressure, using Newton-Raphson iteration.
(Inherited from HelmholtzEquationOfStateOfPureFluidsBySpanEtAl)
Public methodToStringReturns a string that represents the current object.
(Inherited from Object)
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