Altaxo user manual and class reference
Altaxo user manual and class reference
Altaxo class reference
Altaxo Namespaces
Altaxo.Science Namespaces
Altaxo.Science.Thermodynamics.Fluids
Diethanolamine Class
Diethanolamine Properties
AcentricFactor Property
CASRegistryNumber Property
ChemicalFormula Property
CriticalPointMoleDensity Property
CriticalPointPressure Property
CriticalPointTemperature Property
DipoleMoment Property
FluidFamily Property
FullName Property
Instance Property
LowerTemperatureLimit Property
MolecularWeight Property
NormalBoilingPointTemperature Property
NormalSublimationPointTemperature Property
ShortName Property
Synonym Property
TriplePointPressure Property
TriplePointSaturatedLiquidMoleDensity Property
TriplePointSaturatedVaporMoleDensity Property
TriplePointTemperature Property
UN_Numbers Property
UpperMoleDensityLimit Property
UpperPressureLimit Property
UpperTemperatureLimit Property
WorkingUniversalGasConstant Property
Diethanolamine Properties
The
Diethanolamine
type exposes the following members.
Properties
Name
Description
AcentricFactor
Gets the acentric factor.
(Overrides
HelmholtzEquationOfStateOfPureFluids
AcentricFactor
)
CASRegistryNumber
Gets the CAS registry number.
(Overrides
HelmholtzEquationOfStateOfPureFluidsBySpanEtAl
CASRegistryNumber
)
ChemicalFormula
The chemical formula of the fluid.
(Overrides
HelmholtzEquationOfStateOfPureFluidsBySpanEtAl
ChemicalFormula
)
CriticalPointMassDensity
Gets the mass density at the critical point in kg/m³.
(Inherited from
HelmholtzEquationOfStateOfPureFluids
)
CriticalPointMoleDensity
Gets the mole density at the critical point in mol/m³.
(Overrides
HelmholtzEquationOfStateOfPureFluids
CriticalPointMoleDensity
)
CriticalPointPressure
Gets the pressure at the critical point in Pa.
(Overrides
HelmholtzEquationOfStateOfPureFluids
CriticalPointPressure
)
CriticalPointTemperature
Gets the temperature at the critical point in K.
(Overrides
HelmholtzEquationOfStateOfPureFluids
CriticalPointTemperature
)
DipoleMoment
Gets the dipole moment in Debye.
(Overrides
HelmholtzEquationOfStateOfPureFluidsBySpanEtAl
DipoleMoment
)
FluidFamily
The chemical formula of the fluid.
(Overrides
HelmholtzEquationOfStateOfPureFluidsBySpanEtAl
FluidFamily
)
FullName
The full name of the fluid.
(Overrides
HelmholtzEquationOfStateOfPureFluidsBySpanEtAl
FullName
)
Instance
Gets the (only) instance of this class.
IsMeltingPressureCurveImplemented
(Inherited from
HelmholtzEquationOfStateOfPureFluidsBySpanEtAl
)
IsSublimationPressureCurveImplemented
(Inherited from
HelmholtzEquationOfStateOfPureFluidsBySpanEtAl
)
LowerTemperatureLimit
Gets the lower temperature limit of this model in K.
(Overrides
HelmholtzEquationOfStateOfPureFluidsBySpanEtAl
LowerTemperatureLimit
)
MolecularWeight
Gets the molecular weight in kg/mol.
(Overrides
HelmholtzEquationOfState
MolecularWeight
)
NormalBoilingPointTemperature
Gets the boiling temperature at normal pressure (101325 Pa) in K (if existent). If not existent, the return value is null.
(Overrides
HelmholtzEquationOfStateOfPureFluids
NormalBoilingPointTemperature
)
NormalSublimationPointTemperature
Gets the sublimation temperature at normal pressure (101325 Pa) in K (if existent). If not existent, the return value is null.
(Overrides
HelmholtzEquationOfStateOfPureFluids
NormalSublimationPointTemperature
)
ReducingMassDensity
Gets the density (in kg/m³) used to calculate the reduced (dimensionless) density.
(Inherited from
HelmholtzEquationOfState
)
ReducingMoleDensity
Gets the molar density (in mol/m³) used to calculate the reduced (dimensionless) density.
(Inherited from
HelmholtzEquationOfStateOfPureFluids
)
ReducingTemperature
Gets the temperature (in Kelvin) that is used to calculate the inverse reduced temperature.
(Inherited from
HelmholtzEquationOfStateOfPureFluids
)
ShortName
The short name of the fluid.
(Overrides
HelmholtzEquationOfStateOfPureFluidsBySpanEtAl
ShortName
)
Synonym
The synonym of the name of the fluid.
(Overrides
HelmholtzEquationOfStateOfPureFluidsBySpanEtAl
Synonym
)
TriplePointPressure
Gets the triple point pressure in Pa.
(Overrides
HelmholtzEquationOfStateOfPureFluids
TriplePointPressure
)
TriplePointSaturatedLiquidMassDensity
Gets the saturated liquid density at the triple point in kg/m³.
(Inherited from
HelmholtzEquationOfStateOfPureFluids
)
TriplePointSaturatedLiquidMoleDensity
Gets the triple point liquid mole density in mol/m³.
(Overrides
HelmholtzEquationOfStateOfPureFluids
TriplePointSaturatedLiquidMoleDensity
)
TriplePointSaturatedVaporMassDensity
Gets the saturated vapor density at the triple point in kg/m³.
(Inherited from
HelmholtzEquationOfStateOfPureFluids
)
TriplePointSaturatedVaporMoleDensity
Gets the triple point vapor mole density in mol/m³.
(Overrides
HelmholtzEquationOfStateOfPureFluids
TriplePointSaturatedVaporMoleDensity
)
TriplePointTemperature
Gets the triple point temperature in K.
(Overrides
HelmholtzEquationOfStateOfPureFluids
TriplePointTemperature
)
UN_Numbers
The UN number of the fluid.
(Overrides
HelmholtzEquationOfStateOfPureFluidsBySpanEtAl
UN_Numbers
)
UpperMoleDensityLimit
Gets the upper density limit of this model in mol/m³.
(Overrides
HelmholtzEquationOfStateOfPureFluidsBySpanEtAl
UpperMoleDensityLimit
)
UpperPressureLimit
Gets the upper pressure limit of this model in Pa.
(Overrides
HelmholtzEquationOfStateOfPureFluidsBySpanEtAl
UpperPressureLimit
)
UpperTemperatureLimit
Gets the upper temperature limit of this model in K.
(Overrides
HelmholtzEquationOfStateOfPureFluidsBySpanEtAl
UpperTemperatureLimit
)
WorkingSpecificGasConstant
Gets the specific gas constant of the fluid. Is calculated from
WorkingUniversalGasConstant
and
MolecularWeight
.
(Inherited from
HelmholtzEquationOfState
)
WorkingUniversalGasConstant
The Universal Gas Constant R at the time the model was developed.
(Overrides
HelmholtzEquationOfStateOfPureFluidsBySpanEtAl
WorkingUniversalGasConstant
)
Top
See Also
Reference
Diethanolamine Class
Altaxo.Science.Thermodynamics.Fluids Namespace
Altaxo can be downloaded from
SourceForge
. Source code available on
Github
.
(C) Dr. Dirk Lellinger and all contributors to the source code 2002 -
Send comments on this topic to
dlellinger@users.sourceforge.net