Package Modelica.Media.Water.WaterIF97_R2pT
Region 2 (steam) water according to IF97 standard

Information

Extends from Modelica.Media.Water.WaterIF97_fixedregion (Water: Steam properties as defined by IAPWS/IF97 standard, fixed region).

Package Contents

Name	Description
`AbsolutePressure`	Type for absolute pressure with medium specific attributes
`BaseProperties`	Base properties of water
`Basic` …	The most basic version of a record used in several degrees of detail
`beta`	Alias for isobaricExpansionCoefficient for user convenience
`bubbleDensity`	Boiling curve specific density of water
`bubbleEnthalpy`	Boiling curve specific enthalpy of water
`bubbleEntropy`	Boiling curve specific entropy of water
`Choices` …
`CumulativeExtraProperty`	Type for conserved integral of unspecified, mass specific property
`dBubbleDensity_dPressure`	Bubble point density derivative
`dBubbleEnthalpy_dPressure`	Bubble point specific enthalpy derivative
`dDewDensity_dPressure`	Dew point density derivative
`dDewEnthalpy_dPressure`	Dew point specific enthalpy derivative
`Density`	Type for density with medium specific attributes
`density`	Return density of ideal gas
`density_derh_p`	Density derivative by specific enthalpy
`density_derp_h`	Density derivative by pressure
`density_derp_T`	Return density derivative w.r.t. pressure at const temperature
`density_derT_p`	Return density derivative w.r.t. temperature at constant pressure
`density_derX`	Return density derivative w.r.t. mass fraction
`density_ph`	Computes density as a function of pressure and specific enthalpy
`density_phX`	Return density from p, h, and X or Xi
`density_ps`	Computes density as a function of pressure and specific enthalpy
`density_psX`	Return density from p, s, and X or Xi
`density_pT`	Computes density as a function of pressure and temperature
`density_pTX`	Return density from p, T, and X or Xi
`DerDensityByEnthalpy`	Type for partial derivative of density with respect to enthalpy with medium specific attributes
`DerDensityByPressure`	Type for partial derivative of density with respect to pressure with medium specific attributes
`DerDensityByTemperature`	Type for partial derivative of density with respect to temperature with medium specific attributes
`DerEnthalpyByPressure`	Type for partial derivative of enthalpy with respect to pressure with medium specific attributes
`DerTemperatureByPressure`	Type for partial derivative of temperature with respect to pressure with medium specific attributes
`dewDensity`	Dew curve specific density of water
`dewEnthalpy`	Dew curve specific enthalpy of water
`dewEntropy`	Dew curve specific entropy of water
`DipoleMoment`	Type for dipole moment with medium specific attributes
`DynamicViscosity`	Type for dynamic viscosity with medium specific attributes
`dynamicViscosity`	Dynamic viscosity of water
`EnthalpyFlowRate`	Type for enthalpy flow rate with medium specific attributes
`ExtraProperty`	Type for unspecified, mass-specific property transported by flow
`ExtraPropertyFlowRate`	Type for flow rate of unspecified, mass-specific property
`FixedPhase`	Phase of the fluid: 1 for 1-phase, 2 for two-phase, 0 for not known, e.g., interactive use
`FluidConstants`
`FluidLimits`	Validity limits for fluid model
`heatCapacity_cp`	Alias for deprecated name
`heatCapacity_cv`	Alias for deprecated name
`IdealGas` …	The ideal gas version of a record used in several degrees of detail
`isentropicEnthalpy`	Compute h(s,p)
`IsentropicExponent`	Type for isentropic exponent with medium specific attributes
`isentropicExponent`	Return isentropic exponent
`IsobaricExpansionCoefficient`	Type for isobaric expansion coefficient with medium specific attributes
`isobaricExpansionCoefficient`	Isobaric expansion coefficient of water
`isothermalCompressibility`	Isothermal compressibility of water
`kappa`	Alias of isothermalCompressibility for user convenience
`MassFlowRate`	Type for mass flow rate with medium specific attributes
`MassFraction`	Type for mass fraction with medium specific attributes
`MolarMass`	Type for molar mass with medium specific attributes
`molarMass`	Return the molar mass of the medium
`MolarVolume`	Type for molar volume with medium specific attributes
`MoleFraction`	Type for mole fraction with medium specific attributes
`PrandtlNumber`	Type for Prandtl number with medium specific attributes
`prandtlNumber`	Return the Prandtl number
`pressure`	Return pressure of ideal gas
`pressure_dT`	Computes pressure as a function of density and temperature
`saturationPressure`	Saturation pressure of water
`saturationPressure_sat`	Return saturation pressure
`SaturationProperties`
`saturationTemperature`	Saturation temperature of water
`saturationTemperature_derp`	Derivative of saturation temperature w.r.t. pressure
`saturationTemperature_derp_sat`	Return derivative of saturation temperature w.r.t. pressure
`saturationTemperature_sat`	Return saturation temperature
`setBubbleState`	Set the thermodynamic state on the bubble line
`setDewState`	Set the thermodynamic state on the dew line
`setSat_p`	Return saturation property record from pressure
`setSat_T`	Return saturation property record from temperature
`setSmoothState`	Return thermodynamic state so that it smoothly approximates: if x > 0 then state_a else state_b
`setState_dT`	Return thermodynamic state from d and T
`setState_dTX`	Return thermodynamic state of water as function of d, T, and optional region
`setState_ph`	Return thermodynamic state from p and h
`setState_phX`	Return thermodynamic state of water as function of p, h, and optional region
`setState_ps`	Return thermodynamic state from p and s
`setState_psX`	Return thermodynamic state of water as function of p, s, and optional region
`setState_pT`	Return thermodynamic state from p and T
`setState_pTX`	Return thermodynamic state of water as function of p, T, and optional region
`setState_px`	Return thermodynamic state from pressure and vapour quality
`setState_Tx`	Return thermodynamic state from temperature and vapour quality
`SpecificEnergy`	Type for specific energy with medium specific attributes
`SpecificEnthalpy`	Type for specific enthalpy with medium specific attributes
`specificEnthalpy`	Return specific enthalpy
`specificEnthalpy_dT`	Computes specific enthalpy as a function of density and temperature
`specificEnthalpy_ps`	Computes specific enthalpy as a function of pressure and temperature
`specificEnthalpy_psX`	Return specific enthalpy from p, s, and X or Xi
`specificEnthalpy_pT`	Computes specific enthalpy as a function of pressure and temperature
`specificEnthalpy_pTX`	Return specific enthalpy from pressure, temperature and mass fraction
`SpecificEntropy`	Type for specific entropy with medium specific attributes
`specificEntropy`	Specific entropy of water
`specificEntropy_pTX`	Return specific enthalpy from p, T, and X or Xi
`specificGibbsEnergy`	Return specific Gibbs energy
`SpecificHeatCapacity`	Type for specific heat capacity with medium specific attributes
`specificHeatCapacityCp`	Specific heat capacity at constant pressure of water
`specificHeatCapacityCv`	Specific heat capacity at constant volume of water
`specificHelmholtzEnergy`	Return specific Helmholtz energy
`SpecificInternalEnergy`	Type for specific internal energy with medium specific attributes
`specificInternalEnergy`	Return specific internal energy
`SurfaceTension`	Type for surface tension with medium specific attributes
`surfaceTension`	Surface tension in two phase region of water
`Temperature`	Type for temperature with medium specific attributes
`temperature`	Return temperature of ideal gas
`temperature_ph`	Computes temperature as a function of pressure and specific enthalpy
`temperature_phX`	Return temperature from p, h, and X or Xi
`temperature_ps`	Compute temperature from pressure and specific enthalpy
`temperature_psX`	Return temperature from p, s, and X or Xi
`ThermalConductivity`	Type for thermal conductivity with medium specific attributes
`thermalConductivity`	Thermal conductivity of water
`ThermodynamicState`	Thermodynamic state
`TwoPhase` …	The two phase fluid version of a record used in several degrees of detail
`vapourQuality`	Return vapour quality
`VelocityOfSound`	Type for velocity of sound with medium specific attributes
`velocityOfSound`	Return velocity of sound as a function of the thermodynamic state record

Package Constants

Type	Name	Value	Description
`ExtraProperty`	`C_default[nC]`	`fill(0, nC)`	Default value for trace substances of medium (for initialization)
`Real`	`C_nominal[nC]`	`1e-6 * ones(nC)`	Default for the nominal values for the extra properties
`final` `Boolean`	`dT_explicit`	`false`	True if explicit in density and temperature
`String`	`extraPropertiesNames[:]`	`fill("", 0)`	Names of the additional (extra) transported properties. Set extraPropertiesNames=fill("",0) if unused
`final` `Boolean`	`fixedX`	`true`	= true if medium contains the equation X = reference_X
`FluidConstants`	`fluidConstants[nS]`	`waterConstants`	Constant data for the fluid
`SpecificEnthalpy`	`h_default`	`specificEnthalpy_pTX(p_default, T_default, X_default)`	Default value for specific enthalpy of medium (for initialization)
`String`	`mediumName`	`"WaterIF97"`	Name of the medium
`final` `Integer`	`nC`	`size(extraPropertiesNames, 1)`	Number of extra (outside of standard mass-balance) transported properties
`final` `Integer`	`nS`	`size(substanceNames, 1)`	Number of substances
`Integer`	`nX`	`nS`	Number of mass fractions
`Integer`	`nXi`	`if fixedX then 0 else if reducedX then nS - 1 else nS`	Number of structurally independent mass fractions (see docu for details)
`Boolean`	`onePhase`	`true`	True if the (derived) model should never be called with two-phase inputs
`AbsolutePressure`	`p_default`	`101325`	Default value for pressure of medium (for initialization)
`final` `Boolean`	`ph_explicit`	`false`	True if explicit in pressure and specific enthalpy
`final` `Boolean`	`pT_explicit`	`true`	True if explicit in pressure and temperature
`final` `Boolean`	`reducedX`	`true`	= true if medium contains the equation sum(X) = 1.0; set reducedX=true if only one substance (see docu for details)
`AbsolutePressure`	`reference_p`	`101325`	Reference pressure of Medium: default 1 atmosphere
`Temperature`	`reference_T`	`298.15`	Reference temperature of Medium: default 25 deg Celsius
`MassFraction`	`reference_X[nX]`	`fill(nX ^ (-1), nX)`	Default mass fractions of medium
`final` `Integer`	`Region`	`2`	Region of IF97, if known, zero otherwise
`Boolean`	`singleState`	`false`	= true, if u and d are not a function of pressure
`Boolean`	`smoothModel`	`true`	True if the (derived) model should not generate state events
`String`	`substanceNames[:]`	`{"water"}`	Names of the mixture substances. Set substanceNames={mediumName} if only one substance.
`Temperature`	`T_default`	`Modelica.SIunits.Conversions.from_degC(20)`	Default value for temperature of medium (for initialization)
`IndependentVariables`	`ThermoStates`	`Modelica.Media.Interfaces.Choices.IndependentVariables.pT`	Enumeration type for independent variables
`MassFraction`	`X_default[nX]`	`reference_X`	Default value for mass fractions of medium (for initialization)

Type Modelica.Media.Water.WaterIF97_R2pT.AbsolutePressure
Type for absolute pressure with medium specific attributes

Extends from Modelica.SIunits.AbsolutePressure.

Attributes

Name	Value
`quantity`	`"Pressure"`
`unit`	`"Pa"`
`displayUnit`	`"bar"`
`min`	`611.657`
`max`	`1e+8`
`start`	`5e+6`
`nominal`	`1000000`

Type Modelica.Media.Water.WaterIF97_R2pT.Density
Type for density with medium specific attributes

Extends from Modelica.SIunits.Density.

Attributes

Name	Value
`quantity`	`"Density"`
`unit`	`"kg/m3"`
`displayUnit`	`"g/cm3"`
`min`	`0`
`max`	`100000`
`start`	`150`
`nominal`	`500`

Type Modelica.Media.Water.WaterIF97_R2pT.DynamicViscosity
Type for dynamic viscosity with medium specific attributes

Extends from Modelica.SIunits.DynamicViscosity.

Attributes

Name	Value
`quantity`	`"DynamicViscosity"`
`unit`	`"Pa.s"`
`min`	`0`
`max`	`1e+8`
`start`	`0.001`
`nominal`	`0.001`

Type Modelica.Media.Water.WaterIF97_R2pT.EnthalpyFlowRate
Type for enthalpy flow rate with medium specific attributes

Extends from Modelica.SIunits.EnthalpyFlowRate.

Attributes

Name	Value
`quantity`	`"EnthalpyFlowRate"`
`unit`	`"W"`
`min`	`-1e+8`
`max`	`1e+8`
`start`	`0.`
`nominal`	`1000`

Type Modelica.Media.Water.WaterIF97_R2pT.MassFraction
Type for mass fraction with medium specific attributes

Extends from Real.

Attributes

Name	Value
`quantity`	`"MassFraction"`
`unit`	`"kg/kg"`
`min`	`0`
`max`	`1`
`start`	`0.`
`nominal`	`0.1`

Type Modelica.Media.Water.WaterIF97_R2pT.MoleFraction
Type for mole fraction with medium specific attributes

Extends from Real.

Attributes

Name	Value
`quantity`	`"MoleFraction"`
`unit`	`"mol/mol"`
`min`	`0`
`max`	`1`
`start`	`0.`
`nominal`	`0.1`

Type Modelica.Media.Water.WaterIF97_R2pT.MolarMass
Type for molar mass with medium specific attributes

Extends from Modelica.SIunits.MolarMass.

Attributes

Name	Value
`quantity`	`"MolarMass"`
`unit`	`"kg/mol"`
`min`	`0.001`
`max`	`0.25`
`start`	`0.`
`nominal`	`0.032`

Type Modelica.Media.Water.WaterIF97_R2pT.MolarVolume
Type for molar volume with medium specific attributes

Extends from Modelica.SIunits.MolarVolume.

Attributes

Name	Value
`quantity`	`"MolarVolume"`
`unit`	`"m3/mol"`
`min`	`1e-6`
`max`	`1000000`
`start`	`0.`
`nominal`	`1`

Type Modelica.Media.Water.WaterIF97_R2pT.IsentropicExponent
Type for isentropic exponent with medium specific attributes

Extends from Modelica.SIunits.RatioOfSpecificHeatCapacities.

Attributes

Name	Value
`quantity`	`"RatioOfSpecificHeatCapacities"`
`unit`	`"1"`
`min`	`1`
`max`	`500000`
`start`	`1.2`
`nominal`	`1.2`

Type Modelica.Media.Water.WaterIF97_R2pT.SpecificEnergy
Type for specific energy with medium specific attributes

Extends from Modelica.SIunits.SpecificEnergy.

Attributes

Name	Value
`quantity`	`"SpecificEnergy"`
`unit`	`"J/kg"`
`min`	`-1e+8`
`max`	`1e+8`
`start`	`0.`
`nominal`	`1000000`

Type Modelica.Media.Water.WaterIF97_R2pT.SpecificInternalEnergy
Type for specific internal energy with medium specific attributes

Extends from Modelica.Media.Water.WaterIF97_R2pT.SpecificEnergy (Type for specific energy with medium specific attributes).

Attributes

Name	Value
`quantity`	`"SpecificEnergy"`
`unit`	`"J/kg"`
`min`	`-1e+8`
`max`	`1e+8`
`start`	`0.`
`nominal`	`1000000`

Type Modelica.Media.Water.WaterIF97_R2pT.SpecificEnthalpy
Type for specific enthalpy with medium specific attributes

Extends from Modelica.SIunits.SpecificEnthalpy.

Attributes

Name	Value
`quantity`	`"SpecificEnergy"`
`unit`	`"J/kg"`
`min`	`-1e+10`
`max`	`1e+10`
`start`	`100000`
`nominal`	`500000`

Type Modelica.Media.Water.WaterIF97_R2pT.SpecificEntropy
Type for specific entropy with medium specific attributes

Extends from Modelica.SIunits.SpecificEntropy.

Attributes

Name	Value
`quantity`	`"SpecificEntropy"`
`unit`	`"J/(kg.K)"`
`min`	`-1e+7`
`max`	`1e+7`
`start`	`0.`
`nominal`	`1000`

Type Modelica.Media.Water.WaterIF97_R2pT.SpecificHeatCapacity
Type for specific heat capacity with medium specific attributes

Extends from Modelica.SIunits.SpecificHeatCapacity.

Attributes

Name	Value
`quantity`	`"SpecificHeatCapacity"`
`unit`	`"J/(kg.K)"`
`min`	`0`
`max`	`1e+7`
`start`	`1000`
`nominal`	`1000`

Type Modelica.Media.Water.WaterIF97_R2pT.SurfaceTension
Type for surface tension with medium specific attributes

Extends from Modelica.SIunits.SurfaceTension.

Attributes

Name	Value
`quantity`	`"SurfaceTension"`
`unit`	`"N/m"`
`min`	`-Modelica.Constants.inf`
`max`	`Modelica.Constants.inf`
`start`	`0.`

Type Modelica.Media.Water.WaterIF97_R2pT.Temperature
Type for temperature with medium specific attributes

Extends from Modelica.SIunits.Temperature.

Attributes

Name	Value
`quantity`	`"ThermodynamicTemperature"`
`unit`	`"K"`
`displayUnit`	`"degC"`
`min`	`273.15`
`max`	`2273.15`
`start`	`500`
`nominal`	`500`

Type Modelica.Media.Water.WaterIF97_R2pT.ThermalConductivity
Type for thermal conductivity with medium specific attributes

Extends from Modelica.SIunits.ThermalConductivity.

Attributes

Name	Value
`quantity`	`"ThermalConductivity"`
`unit`	`"W/(m.K)"`
`min`	`0`
`max`	`500`
`start`	`1`
`nominal`	`1`

Type Modelica.Media.Water.WaterIF97_R2pT.PrandtlNumber
Type for Prandtl number with medium specific attributes

Extends from Modelica.SIunits.PrandtlNumber.

Attributes

Name	Value
`quantity`	`"PrandtlNumber"`
`unit`	`"1"`
`min`	`0.001`
`max`	`100000`
`start`	`0.`
`nominal`	`1`

Type Modelica.Media.Water.WaterIF97_R2pT.VelocityOfSound
Type for velocity of sound with medium specific attributes

Extends from Modelica.SIunits.Velocity.

Attributes

Name	Value
`quantity`	`"Velocity"`
`unit`	`"m/s"`
`min`	`0`
`max`	`100000`
`start`	`1000`
`nominal`	`1000`

Type Modelica.Media.Water.WaterIF97_R2pT.ExtraProperty
Type for unspecified, mass-specific property transported by flow

Extends from Real.

Attributes

Name	Value
`min`	`0`
`max`	`Modelica.Constants.inf`
`start`	`1`

Type Modelica.Media.Water.WaterIF97_R2pT.CumulativeExtraProperty
Type for conserved integral of unspecified, mass specific property

Extends from Real.

Attributes

Name	Value
`min`	`0`
`max`	`Modelica.Constants.inf`
`start`	`1`

Type Modelica.Media.Water.WaterIF97_R2pT.ExtraPropertyFlowRate
Type for flow rate of unspecified, mass-specific property

Extends from Real.

Attributes

Name	Value
`unit`	`"kg/s"`
`min`	`-Modelica.Constants.inf`
`max`	`Modelica.Constants.inf`
`start`	`0.`

Type Modelica.Media.Water.WaterIF97_R2pT.IsobaricExpansionCoefficient
Type for isobaric expansion coefficient with medium specific attributes

Extends from Real.

Attributes

Name	Value
`unit`	`"1/K"`
`min`	`0`
`max`	`1e+8`
`start`	`0.`

Type Modelica.Media.Water.WaterIF97_R2pT.DipoleMoment
Type for dipole moment with medium specific attributes

Extends from Real.

Attributes

Name	Value
`quantity`	`"ElectricDipoleMoment"`
`unit`	`"debye"`
`min`	`0`
`max`	`2`
`start`	`0.`

Type Modelica.Media.Water.WaterIF97_R2pT.DerDensityByPressure
Type for partial derivative of density with respect to pressure with medium specific attributes

Extends from Modelica.SIunits.DerDensityByPressure.

Attributes

Name	Value
`unit`	`"s2/m2"`
`min`	`-Modelica.Constants.inf`
`max`	`Modelica.Constants.inf`
`start`	`0.`

Type Modelica.Media.Water.WaterIF97_R2pT.DerDensityByEnthalpy
Type for partial derivative of density with respect to enthalpy with medium specific attributes

Extends from Modelica.SIunits.DerDensityByEnthalpy.

Attributes

Name	Value
`unit`	`"kg.s2/m5"`
`min`	`-Modelica.Constants.inf`
`max`	`Modelica.Constants.inf`
`start`	`0.`

Type Modelica.Media.Water.WaterIF97_R2pT.DerEnthalpyByPressure
Type for partial derivative of enthalpy with respect to pressure with medium specific attributes

Extends from Modelica.SIunits.DerEnthalpyByPressure.

Attributes

Name	Value
`unit`	`"J.m.s2/kg2"`
`min`	`-Modelica.Constants.inf`
`max`	`Modelica.Constants.inf`
`start`	`0.`

Type Modelica.Media.Water.WaterIF97_R2pT.DerDensityByTemperature
Type for partial derivative of density with respect to temperature with medium specific attributes

Extends from Modelica.SIunits.DerDensityByTemperature.

Attributes

Name	Value
`unit`	`"kg/(m3.K)"`
`min`	`-Modelica.Constants.inf`
`max`	`Modelica.Constants.inf`
`start`	`0.`

Type Modelica.Media.Water.WaterIF97_R2pT.DerTemperatureByPressure
Type for partial derivative of temperature with respect to pressure with medium specific attributes

Extends from Real.

Attributes

Name	Value
`unit`	`"K/Pa"`
`min`	`-Modelica.Constants.inf`
`max`	`Modelica.Constants.inf`
`start`	`0.`

Record Modelica.Media.Water.WaterIF97_R2pT.SaturationProperties
Saturation properties of two phase medium

Information

This icon is indicates a record.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.SaturationProperties (Saturation properties of two phase medium).

Fields

Type	Name	Description
`AbsolutePressure`	`psat`	Saturation pressure
`Temperature`	`Tsat`	Saturation temperature

Record Modelica.Media.Water.WaterIF97_R2pT.FluidLimits
Validity limits for fluid model

Information

The minimum pressure mostly applies to the liquid state only. The minimum density is also arbitrary, but is reasonable for technical applications to limit iterations in non-linear systems. The limits in enthalpy and entropy are used as safeguards in inverse iterations.

Extends from Modelica.Icons.Record (Icon for records).

Fields

Type	Name	Description
`Temperature`	`TMIN`	Minimum temperature
`Temperature`	`TMAX`	Maximum temperature
`Density`	`DMIN`	Minimum density
`Density`	`DMAX`	Maximum density
`AbsolutePressure`	`PMIN`	Minimum pressure
`AbsolutePressure`	`PMAX`	Maximum pressure
`SpecificEnthalpy`	`HMIN`	Minimum enthalpy
`SpecificEnthalpy`	`HMAX`	Maximum enthalpy
`SpecificEntropy`	`SMIN`	Minimum entropy
`SpecificEntropy`	`SMAX`	Maximum entropy

Type Modelica.Media.Water.WaterIF97_R2pT.FixedPhase
Phase of the fluid: 1 for 1-phase, 2 for two-phase, 0 for not known, e.g., interactive use

Extends from Integer.

Attributes

Name	Value
`min`	`0`
`max`	`2`
`start`	`0`

Record Modelica.Media.Water.WaterIF97_R2pT.FluidConstants
Extended fluid constants

Information

This icon is indicates a record.

Extends from Modelica.Media.Interfaces.Types.TwoPhase.FluidConstants (Extended fluid constants).

Fields

Type	Name	Description
`String`	`iupacName`	Complete IUPAC name (or common name, if non-existent)
`String`	`casRegistryNumber`	Chemical abstracts sequencing number (if it exists)
`String`	`chemicalFormula`	Chemical formula, (brutto, nomenclature according to Hill
`String`	`structureFormula`	Chemical structure formula
`MolarMass`	`molarMass`	Molar mass
`Temperature`	`criticalTemperature`	Critical temperature
`AbsolutePressure`	`criticalPressure`	Critical pressure
`MolarVolume`	`criticalMolarVolume`	Critical molar Volume
`Real`	`acentricFactor`	Pitzer acentric factor
`Temperature`	`triplePointTemperature`	Triple point temperature
`AbsolutePressure`	`triplePointPressure`	Triple point pressure
`Temperature`	`meltingPoint`	Melting point at 101325 Pa
`Temperature`	`normalBoilingPoint`	Normal boiling point (at 101325 Pa)
`DipoleMoment`	`dipoleMoment`	Dipole moment of molecule in Debye (1 debye = 3.33564e10-30 C.m)
`Boolean`	`hasIdealGasHeatCapacity`	True if ideal gas heat capacity is available
`Boolean`	`hasCriticalData`	True if critical data are known
`Boolean`	`hasDipoleMoment`	True if a dipole moment known
`Boolean`	`hasFundamentalEquation`	True if a fundamental equation
`Boolean`	`hasLiquidHeatCapacity`	True if liquid heat capacity is available
`Boolean`	`hasSolidHeatCapacity`	True if solid heat capacity is available
`Boolean`	`hasAccurateViscosityData`	True if accurate data for a viscosity function is available
`Boolean`	`hasAccurateConductivityData`	True if accurate data for thermal conductivity is available
`Boolean`	`hasVapourPressureCurve`	True if vapour pressure data, e.g., Antoine coefficients are known
`Boolean`	`hasAcentricFactor`	True if Pitzer acentric factor is known
`SpecificEnthalpy`	`HCRIT0`	Critical specific enthalpy of the fundamental equation
`SpecificEntropy`	`SCRIT0`	Critical specific entropy of the fundamental equation
`SpecificEnthalpy`	`deltah`	Difference between specific enthalpy model (h_m) and f.eq. (h_f) (h_m - h_f)
`SpecificEntropy`	`deltas`	Difference between specific enthalpy model (s_m) and f.eq. (s_f) (s_m - s_f)

Record Modelica.Media.Water.WaterIF97_R2pT.ThermodynamicState
Thermodynamic state

Information

This icon is indicates a record.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.ThermodynamicState (Thermodynamic state of two phase medium).

Fields

Type	Name	Description
`FixedPhase`	`phase`	Phase of the fluid: 1 for 1-phase, 2 for two-phase, 0 for not known, e.g., interactive use
`SpecificEnthalpy`	`h`	Specific enthalpy
`Density`	`d`	Density
`Temperature`	`T`	Temperature
`AbsolutePressure`	`p`	Pressure

Model Modelica.Media.Water.WaterIF97_R2pT.BaseProperties
Base properties of water

Information

Model BaseProperties is a model within package PartialMedium and contains the declarations of the minimum number of variables that every medium model is supposed to support. A specific medium inherits from model BaseProperties and provides the equations for the basic properties.

The BaseProperties model contains the following 7+nXi variables (nXi is the number of independent mass fractions defined in package PartialMedium):

Variable	Unit	Description
T	K	temperature
p	Pa	absolute pressure
d	kg/m3	density
h	J/kg	specific enthalpy
u	J/kg	specific internal energy
Xi[nXi]	kg/kg	independent mass fractions m_i/m
R	J/kg.K	gas constant
M	kg/mol	molar mass

In order to implement an actual medium model, one can extend from this base model and add 5 equations that provide relations among these variables. Equations will also have to be added in order to set all the variables within the ThermodynamicState record state.

If standardOrderComponents=true, the full composition vector X[nX] is determined by the equations contained in this base class, depending on the independent mass fraction vector Xi[nXi].

Additional 2 + nXi equations will have to be provided when using the BaseProperties model, in order to fully specify the thermodynamic conditions. The input connector qualifier applied to p, h, and nXi indirectly declares the number of missing equations, permitting advanced equation balance checking by Modelica tools. Please note that this doesn't mean that the additional equations should be connection equations, nor that exactly those variables should be supplied, in order to complete the model. For further information, see the Modelica.Media User's guide, and Section 4.7 (Balanced Models) of the Modelica 3.0 specification.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.BaseProperties (Base properties (p, d, T, h, u, R, MM, sat) of two phase medium).

Parameters

Type	Name	Default	Description
`Boolean`	`preferredMediumStates`	`false`	= true if StateSelect.prefer shall be used for the independent property variables of the medium
`final` `Boolean`	`standardOrderComponents`	`true`	If true, and reducedX = true, the last element of X will be computed from the other ones

Connectors

Type	Name	Description
`input` `InputAbsolutePressure`	`p`	Absolute pressure of medium
`input` `InputMassFraction`	`Xi[nXi]`	Structurally independent mass fractions
`input` `InputSpecificEnthalpy`	`h`	Specific enthalpy of medium

Function Modelica.Media.Water.WaterIF97_R2pT.setState_pTX
Return thermodynamic state of water as function of p, T, and optional region

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.setState_pTX (Return thermodynamic state as function of p, T and composition X or Xi).

Inputs

Type	Name	Description
`AbsolutePressure`	`p`	Pressure
`Temperature`	`T`	Temperature
`MassFraction`	`X[:]`	Mass fractions
`FixedPhase`	`phase`	2 for two-phase, 1 for one-phase, 0 if not known
`Integer`	`region`	If 0, region is unknown, otherwise known and this input

Outputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Function Modelica.Media.Water.WaterIF97_R2pT.setState_phX
Return thermodynamic state of water as function of p, h, and optional region

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.setState_phX (Return thermodynamic state as function of p, h and composition X or Xi).

Inputs

Type	Name	Description
`AbsolutePressure`	`p`	Pressure
`SpecificEnthalpy`	`h`	Specific enthalpy
`MassFraction`	`X[:]`	Mass fractions
`FixedPhase`	`phase`	2 for two-phase, 1 for one-phase, 0 if not known
`Integer`	`region`	If 0, region is unknown, otherwise known and this input

Outputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Function Modelica.Media.Water.WaterIF97_R2pT.setState_psX
Return thermodynamic state of water as function of p, s, and optional region

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.setState_psX (Return thermodynamic state as function of p, s and composition X or Xi).

Inputs

Type	Name	Description
`AbsolutePressure`	`p`	Pressure
`SpecificEntropy`	`s`	Specific entropy
`MassFraction`	`X[:]`	Mass fractions
`FixedPhase`	`phase`	2 for two-phase, 1 for one-phase, 0 if not known
`Integer`	`region`	If 0, region is unknown, otherwise known and this input

Outputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Function Modelica.Media.Water.WaterIF97_R2pT.setState_dTX
Return thermodynamic state of water as function of d, T, and optional region

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.setState_dTX (Return thermodynamic state as function of d, T and composition X or Xi).

Inputs

Type	Name	Description
`Density`	`d`	Density
`Temperature`	`T`	Temperature
`MassFraction`	`X[:]`	Mass fractions
`FixedPhase`	`phase`	2 for two-phase, 1 for one-phase, 0 if not known
`Integer`	`region`	If 0, region is unknown, otherwise known and this input

Outputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Function Modelica.Media.Water.WaterIF97_R2pT.setSmoothState
Return thermodynamic state so that it smoothly approximates: if x > 0 then state_a else state_b

Information

This function is used to approximate the equation

    state = if x > 0 then state_a else state_b;

by a smooth characteristic, so that the expression is continuous and differentiable:

   state := smooth(1, if x >  x_small then state_a else
                      if x < -x_small then state_b else f(state_a, state_b));

This is performed by applying function Media.Common.smoothStep(..) on every element of the thermodynamic state record.

If mass fractions X[:] are approximated with this function then this can be performed for all nX mass fractions, instead of applying it for nX-1 mass fractions and computing the last one by the mass fraction constraint sum(X)=1. The reason is that the approximating function has the property that sum(state.X) = 1, provided sum(state_a.X) = sum(state_b.X) = 1. This can be shown by evaluating the approximating function in the abs(x) < x_small region (otherwise state.X is either state_a.X or state_b.X):

    X[1]  = smoothStep(x, X_a[1] , X_b[1] , x_small);
    X[2]  = smoothStep(x, X_a[2] , X_b[2] , x_small);
       ...
    X[nX] = smoothStep(x, X_a[nX], X_b[nX], x_small);

    X[1]  = c*(X_a[1]  - X_b[1])  + (X_a[1]  + X_b[1])/2
    X[2]  = c*(X_a[2]  - X_b[2])  + (X_a[2]  + X_b[2])/2;
       ...
    X[nX] = c*(X_a[nX] - X_b[nX]) + (X_a[nX] + X_b[nX])/2;
    c     = (x/x_small)*((x/x_small)^2 - 3)/4

Summing all mass fractions together results in

    sum(X) = c*(sum(X_a) - sum(X_b)) + (sum(X_a) + sum(X_b))/2
           = c*(1 - 1) + (1 + 1)/2
           = 1

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.setSmoothState (Return thermodynamic state so that it smoothly approximates: if x > 0 then state_a else state_b).

Inputs

Type	Name	Description
`Real`	`x`	m_flow or dp
`ThermodynamicState`	`state_a`	Thermodynamic state if x > 0
`ThermodynamicState`	`state_b`	Thermodynamic state if x < 0
`Real`	`x_small`	Smooth transition in the region -x_small < x < x_small

Outputs

Type	Name	Description
`ThermodynamicState`	`state`	Smooth thermodynamic state for all x (continuous and differentiable)

Function Modelica.Media.Water.WaterIF97_R2pT.dynamicViscosity
Dynamic viscosity of water

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.dynamicViscosity (Return dynamic viscosity).

Inputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Outputs

Type	Name	Description
`DynamicViscosity`	`eta`	Dynamic viscosity

Function Modelica.Media.Water.WaterIF97_R2pT.thermalConductivity
Thermal conductivity of water

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.thermalConductivity (Return thermal conductivity).

Inputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Outputs

Type	Name	Description
`ThermalConductivity`	`lambda`	Thermal conductivity

Function Modelica.Media.Water.WaterIF97_R2pT.prandtlNumber
Return the Prandtl number

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Outputs

Type	Name	Description
`PrandtlNumber`	`Pr`	Prandtl number

Function Modelica.Media.Water.WaterIF97_R2pT.pressure
Return pressure of ideal gas

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.pressure (Return pressure).

Inputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Outputs

Type	Name	Description
`AbsolutePressure`	`p`	Pressure

Function Modelica.Media.Water.WaterIF97_R2pT.temperature
Return temperature of ideal gas

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.temperature (Return temperature).

Inputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Outputs

Type	Name	Description
`Temperature`	`T`	Temperature

Function Modelica.Media.Water.WaterIF97_R2pT.density
Return density of ideal gas

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.density (Return density).

Inputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Outputs

Type	Name	Description
`Density`	`d`	Density

Function Modelica.Media.Water.WaterIF97_R2pT.specificEnthalpy
Return specific enthalpy

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.specificEnthalpy (Return specific enthalpy) and Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Outputs

Type	Name	Description
`SpecificEnthalpy`	`h`	Specific enthalpy

Function Modelica.Media.Water.WaterIF97_R2pT.specificInternalEnergy
Return specific internal energy

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.specificInternalEnergy (Return specific internal energy) and Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Outputs

Type	Name	Description
`SpecificEnergy`	`u`	Specific internal energy

Function Modelica.Media.Water.WaterIF97_R2pT.specificEntropy
Specific entropy of water

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.specificEntropy (Return specific entropy).

Inputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Outputs

Type	Name	Description
`SpecificEntropy`	`s`	Specific entropy

Function Modelica.Media.Water.WaterIF97_R2pT.specificGibbsEnergy
Return specific Gibbs energy

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.specificGibbsEnergy (Return specific Gibbs energy) and Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Outputs

Type	Name	Description
`SpecificEnergy`	`g`	Specific Gibbs energy

Function Modelica.Media.Water.WaterIF97_R2pT.specificHelmholtzEnergy
Return specific Helmholtz energy

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.specificHelmholtzEnergy (Return specific Helmholtz energy) and Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Outputs

Type	Name	Description
`SpecificEnergy`	`f`	Specific Helmholtz energy

Function Modelica.Media.Water.WaterIF97_R2pT.specificHeatCapacityCp
Specific heat capacity at constant pressure of water

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.specificHeatCapacityCp (Return specific heat capacity at constant pressure).

Inputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Outputs

Type	Name	Description
`SpecificHeatCapacity`	`cp`	Specific heat capacity at constant pressure

Function Modelica.Media.Water.WaterIF97_R2pT.heatCapacity_cp
Alias for deprecated name

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Water.WaterIF97_R2pT.specificHeatCapacityCp (Specific heat capacity at constant pressure of water).

Inputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Outputs

Type	Name	Description
`SpecificHeatCapacity`	`cp`	Specific heat capacity at constant pressure

Function Modelica.Media.Water.WaterIF97_R2pT.specificHeatCapacityCv
Specific heat capacity at constant volume of water

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.specificHeatCapacityCv (Return specific heat capacity at constant volume).

Inputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Outputs

Type	Name	Description
`SpecificHeatCapacity`	`cv`	Specific heat capacity at constant volume

Function Modelica.Media.Water.WaterIF97_R2pT.heatCapacity_cv
Alias for deprecated name

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Water.WaterIF97_R2pT.specificHeatCapacityCv (Specific heat capacity at constant volume of water).

Inputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Outputs

Type	Name	Description
`SpecificHeatCapacity`	`cv`	Specific heat capacity at constant volume

Function Modelica.Media.Water.WaterIF97_R2pT.isentropicExponent
Return isentropic exponent

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.isentropicExponent (Return isentropic exponent).

Inputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Outputs

Type	Name	Description
`IsentropicExponent`	`gamma`	Isentropic exponent

Function Modelica.Media.Water.WaterIF97_R2pT.isentropicEnthalpy
Compute h(s,p)

Information

This function computes an isentropic state transformation:

A medium is in a particular state, refState.
The enthalpy at another state (h_is) shall be computed under the assumption that the state transformation from refState to h_is is performed with a change of specific entropy ds = 0 and the pressure of state h_is is p_downstream and the composition X upstream and downstream is assumed to be the same.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.isentropicEnthalpy (Return isentropic enthalpy).

Inputs

Type	Name	Description
`AbsolutePressure`	`p_downstream`	Downstream pressure
`ThermodynamicState`	`refState`	Reference state for entropy

Outputs

Type	Name	Description
`SpecificEnthalpy`	`h_is`	Isentropic enthalpy

Function Modelica.Media.Water.WaterIF97_R2pT.velocityOfSound
Return velocity of sound as a function of the thermodynamic state record

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.velocityOfSound (Return velocity of sound).

Inputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Outputs

Type	Name	Description
`VelocityOfSound`	`a`	Velocity of sound

Function Modelica.Media.Water.WaterIF97_R2pT.isobaricExpansionCoefficient
Isobaric expansion coefficient of water

Information

beta is defined as  1/v * der(v,T), with v = 1/d, at constant pressure p.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.isobaricExpansionCoefficient (Return overall the isobaric expansion coefficient beta).

Inputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Outputs

Type	Name	Description
`IsobaricExpansionCoefficient`	`beta`	Isobaric expansion coefficient

Function Modelica.Media.Water.WaterIF97_R2pT.beta
Alias for isobaricExpansionCoefficient for user convenience

Information

beta is defined as  1/v * der(v,T), with v = 1/d, at constant pressure p.

Extends from Modelica.Media.Water.WaterIF97_R2pT.isobaricExpansionCoefficient (Isobaric expansion coefficient of water).

Inputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Outputs

Type	Name	Description
`IsobaricExpansionCoefficient`	`beta`	Isobaric expansion coefficient

Function Modelica.Media.Water.WaterIF97_R2pT.isothermalCompressibility
Isothermal compressibility of water

Information


kappa is defined as - 1/v * der(v,p), with v = 1/d at constant temperature T.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.isothermalCompressibility (Return overall the isothermal compressibility factor).

Inputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Outputs

Type	Name	Description
`IsothermalCompressibility`	`kappa`	Isothermal compressibility

Function Modelica.Media.Water.WaterIF97_R2pT.kappa
Alias of isothermalCompressibility for user convenience

Information


kappa is defined as - 1/v * der(v,p), with v = 1/d at constant temperature T.

Extends from Modelica.Media.Water.WaterIF97_R2pT.isothermalCompressibility (Isothermal compressibility of water).

Inputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Outputs

Type	Name	Description
`IsothermalCompressibility`	`kappa`	Isothermal compressibility

Function Modelica.Media.Water.WaterIF97_R2pT.density_derp_h
Density derivative by pressure

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.density_derp_h (Return density derivative w.r.t. pressure at const specific enthalpy).

Inputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Outputs

Type	Name	Description
`DerDensityByPressure`	`ddph`	Density derivative w.r.t. pressure

Function Modelica.Media.Water.WaterIF97_R2pT.density_derh_p
Density derivative by specific enthalpy

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.density_derh_p (Return density derivative w.r.t. specific enthalpy at constant pressure).

Inputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Outputs

Type	Name	Description
`DerDensityByEnthalpy`	`ddhp`	Density derivative w.r.t. specific enthalpy

Partial Function Modelica.Media.Water.WaterIF97_R2pT.density_derp_T
Return density derivative w.r.t. pressure at const temperature

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Outputs

Type	Name	Description
`DerDensityByPressure`	`ddpT`	Density derivative w.r.t. pressure

Partial Function Modelica.Media.Water.WaterIF97_R2pT.density_derT_p
Return density derivative w.r.t. temperature at constant pressure

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Outputs

Type	Name	Description
`DerDensityByTemperature`	`ddTp`	Density derivative w.r.t. temperature

Partial Function Modelica.Media.Water.WaterIF97_R2pT.density_derX
Return density derivative w.r.t. mass fraction

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Outputs

Type	Name	Description
`Density`	`dddX[nX]`	Derivative of density w.r.t. mass fraction

Function Modelica.Media.Water.WaterIF97_R2pT.molarMass
Return the molar mass of the medium

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialPureSubstance.molarMass (Return the molar mass of the medium).

Inputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Outputs

Type	Name	Description
`MolarMass`	`MM`	Mixture molar mass

Function Modelica.Media.Water.WaterIF97_R2pT.specificEnthalpy_pTX
Return specific enthalpy from pressure, temperature and mass fraction

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`AbsolutePressure`	`p`	Pressure
`Temperature`	`T`	Temperature
`MassFraction`	`X[:]`	Mass fractions
`FixedPhase`	`phase`	2 for two-phase, 1 for one-phase, 0 if not known

Outputs

Type	Name	Description
`SpecificEnthalpy`	`h`	Specific enthalpy at p, T, X

Function Modelica.Media.Water.WaterIF97_R2pT.specificEntropy_pTX
Return specific enthalpy from p, T, and X or Xi

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`AbsolutePressure`	`p`	Pressure
`Temperature`	`T`	Temperature
`MassFraction`	`X[:]`	Mass fractions

Outputs

Type	Name	Description
`SpecificEntropy`	`s`	Specific entropy

Function Modelica.Media.Water.WaterIF97_R2pT.density_pTX
Return density from p, T, and X or Xi

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`AbsolutePressure`	`p`	Pressure
`Temperature`	`T`	Temperature
`MassFraction`	`X[:]`	Mass fractions

Outputs

Type	Name	Description
`Density`	`d`	Density

Function Modelica.Media.Water.WaterIF97_R2pT.temperature_phX
Return temperature from p, h, and X or Xi

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`AbsolutePressure`	`p`	Pressure
`SpecificEnthalpy`	`h`	Specific enthalpy
`MassFraction`	`X[:]`	Mass fractions
`FixedPhase`	`phase`	2 for two-phase, 1 for one-phase, 0 if not known

Outputs

Type	Name	Description
`Temperature`	`T`	Temperature

Function Modelica.Media.Water.WaterIF97_R2pT.density_phX
Return density from p, h, and X or Xi

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`AbsolutePressure`	`p`	Pressure
`SpecificEnthalpy`	`h`	Specific enthalpy
`MassFraction`	`X[:]`	Mass fractions
`FixedPhase`	`phase`	2 for two-phase, 1 for one-phase, 0 if not known

Outputs

Type	Name	Description
`Density`	`d`	Density

Function Modelica.Media.Water.WaterIF97_R2pT.temperature_psX
Return temperature from p, s, and X or Xi

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`AbsolutePressure`	`p`	Pressure
`SpecificEntropy`	`s`	Specific entropy
`MassFraction`	`X[:]`	Mass fractions
`FixedPhase`	`phase`	2 for two-phase, 1 for one-phase, 0 if not known

Outputs

Type	Name	Description
`Temperature`	`T`	Temperature

Function Modelica.Media.Water.WaterIF97_R2pT.density_psX
Return density from p, s, and X or Xi

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`AbsolutePressure`	`p`	Pressure
`SpecificEntropy`	`s`	Specific entropy
`MassFraction`	`X[:]`	Mass fractions
`FixedPhase`	`phase`	2 for two-phase, 1 for one-phase, 0 if not known

Outputs

Type	Name	Description
`Density`	`d`	Density

Function Modelica.Media.Water.WaterIF97_R2pT.specificEnthalpy_psX
Return specific enthalpy from p, s, and X or Xi

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`AbsolutePressure`	`p`	Pressure
`SpecificEntropy`	`s`	Specific entropy
`MassFraction`	`X[:]`	Mass fractions
`FixedPhase`	`phase`	2 for two-phase, 1 for one-phase, 0 if not known

Outputs

Type	Name	Description
`SpecificEnthalpy`	`h`	Specific enthalpy

Type Modelica.Media.Water.WaterIF97_R2pT.MassFlowRate
Type for mass flow rate with medium specific attributes

Extends from Modelica.SIunits.MassFlowRate.

Attributes

Name	Value
`quantity`	`"MassFlowRate." + mediumName`
`unit`	`"kg/s"`
`min`	`-100000`
`max`	`100000`
`start`	`0.`

Function Modelica.Media.Water.WaterIF97_R2pT.setState_pT
Return thermodynamic state from p and T

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`AbsolutePressure`	`p`	Pressure
`Temperature`	`T`	Temperature
`FixedPhase`	`phase`	2 for two-phase, 1 for one-phase, 0 if not known

Outputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Function Modelica.Media.Water.WaterIF97_R2pT.setState_ph
Return thermodynamic state from p and h

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`AbsolutePressure`	`p`	Pressure
`SpecificEnthalpy`	`h`	Specific enthalpy
`FixedPhase`	`phase`	2 for two-phase, 1 for one-phase, 0 if not known

Outputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Function Modelica.Media.Water.WaterIF97_R2pT.setState_ps
Return thermodynamic state from p and s

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`AbsolutePressure`	`p`	Pressure
`SpecificEntropy`	`s`	Specific entropy
`FixedPhase`	`phase`	2 for two-phase, 1 for one-phase, 0 if not known

Outputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Function Modelica.Media.Water.WaterIF97_R2pT.setState_dT
Return thermodynamic state from d and T

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`Density`	`d`	Density
`Temperature`	`T`	Temperature
`FixedPhase`	`phase`	2 for two-phase, 1 for one-phase, 0 if not known

Outputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Function Modelica.Media.Water.WaterIF97_R2pT.density_ph
Computes density as a function of pressure and specific enthalpy

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`AbsolutePressure`	`p`	Pressure
`SpecificEnthalpy`	`h`	Specific enthalpy
`FixedPhase`	`phase`	2 for two-phase, 1 for one-phase, 0 if not known
`Integer`	`region`	If 0, region is unknown, otherwise known and this input

Outputs

Type	Name	Description
`Density`	`d`	Density

Function Modelica.Media.Water.WaterIF97_R2pT.temperature_ph
Computes temperature as a function of pressure and specific enthalpy

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`AbsolutePressure`	`p`	Pressure
`SpecificEnthalpy`	`h`	Specific enthalpy
`FixedPhase`	`phase`	2 for two-phase, 1 for one-phase, 0 if not known
`Integer`	`region`	If 0, region is unknown, otherwise known and this input

Outputs

Type	Name	Description
`Temperature`	`T`	Temperature

Function Modelica.Media.Water.WaterIF97_R2pT.pressure_dT
Computes pressure as a function of density and temperature

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`Density`	`d`	Density
`Temperature`	`T`	Temperature
`FixedPhase`	`phase`	2 for two-phase, 1 for one-phase, 0 if not known
`Integer`	`region`	If 0, region is unknown, otherwise known and this input

Outputs

Type	Name	Description
`AbsolutePressure`	`p`	Pressure

Function Modelica.Media.Water.WaterIF97_R2pT.specificEnthalpy_dT
Computes specific enthalpy as a function of density and temperature

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`Density`	`d`	Density
`Temperature`	`T`	Temperature
`FixedPhase`	`phase`	2 for two-phase, 1 for one-phase, 0 if not known
`Integer`	`region`	If 0, region is unknown, otherwise known and this input

Outputs

Type	Name	Description
`SpecificEnthalpy`	`h`	Specific enthalpy

Function Modelica.Media.Water.WaterIF97_R2pT.specificEnthalpy_ps
Computes specific enthalpy as a function of pressure and temperature

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`AbsolutePressure`	`p`	Pressure
`SpecificEntropy`	`s`	Specific entropy
`FixedPhase`	`phase`	2 for two-phase, 1 for one-phase, 0 if not known
`Integer`	`region`	If 0, region is unknown, otherwise known and this input

Outputs

Type	Name	Description
`SpecificEnthalpy`	`h`	Specific enthalpy

Function Modelica.Media.Water.WaterIF97_R2pT.temperature_ps
Compute temperature from pressure and specific enthalpy

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`AbsolutePressure`	`p`	Pressure
`SpecificEntropy`	`s`	Specific entropy
`FixedPhase`	`phase`	2 for two-phase, 1 for one-phase, 0 if not known
`Integer`	`region`	If 0, region is unknown, otherwise known and this input

Outputs

Type	Name	Description
`Temperature`	`T`	Temperature

Function Modelica.Media.Water.WaterIF97_R2pT.density_ps
Computes density as a function of pressure and specific enthalpy

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`AbsolutePressure`	`p`	Pressure
`SpecificEntropy`	`s`	Specific entropy
`FixedPhase`	`phase`	2 for two-phase, 1 for one-phase, 0 if not known
`Integer`	`region`	If 0, region is unknown, otherwise known and this input

Outputs

Type	Name	Description
`Density`	`d`	Density

Function Modelica.Media.Water.WaterIF97_R2pT.specificEnthalpy_pT
Computes specific enthalpy as a function of pressure and temperature

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`AbsolutePressure`	`p`	Pressure
`Temperature`	`T`	Temperature
`FixedPhase`	`phase`	2 for two-phase, 1 for one-phase, 0 if not known
`Integer`	`region`	If 0, region is unknown, otherwise known and this input

Outputs

Type	Name	Description
`SpecificEnthalpy`	`h`	Specific enthalpy

Function Modelica.Media.Water.WaterIF97_R2pT.density_pT
Computes density as a function of pressure and temperature

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`AbsolutePressure`	`p`	Pressure
`Temperature`	`T`	Temperature
`FixedPhase`	`phase`	2 for two-phase, 1 for one-phase, 0 if not known
`Integer`	`region`	If 0, region is unknown, otherwise known and this input

Outputs

Type	Name	Description
`Density`	`d`	Density

Function Modelica.Media.Water.WaterIF97_R2pT.setDewState
Set the thermodynamic state on the dew line

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.setDewState (Return the thermodynamic state on the dew line).

Inputs

Type	Name	Description
`SaturationProperties`	`sat`	Saturation point
`FixedPhase`	`phase`	Phase: default is one phase

Outputs

Type	Name	Description
`ThermodynamicState`	`state`	Complete thermodynamic state info

Function Modelica.Media.Water.WaterIF97_R2pT.setBubbleState
Set the thermodynamic state on the bubble line

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.setBubbleState (Return the thermodynamic state on the bubble line).

Inputs

Type	Name	Description
`SaturationProperties`	`sat`	Saturation point
`FixedPhase`	`phase`	Phase: default is one phase

Outputs

Type	Name	Description
`ThermodynamicState`	`state`	Complete thermodynamic state info

Function Modelica.Media.Water.WaterIF97_R2pT.setSat_T
Return saturation property record from temperature

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`Temperature`	`T`	Temperature

Outputs

Type	Name	Description
`SaturationProperties`	`sat`	Saturation property record

Function Modelica.Media.Water.WaterIF97_R2pT.setSat_p
Return saturation property record from pressure

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`AbsolutePressure`	`p`	Pressure

Outputs

Type	Name	Description
`SaturationProperties`	`sat`	Saturation property record

Function Modelica.Media.Water.WaterIF97_R2pT.bubbleEnthalpy
Boiling curve specific enthalpy of water

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.bubbleEnthalpy (Return bubble point specific enthalpy).

Inputs

Type	Name	Description
`SaturationProperties`	`sat`	Saturation property record

Outputs

Type	Name	Description
`SpecificEnthalpy`	`hl`	Boiling curve specific enthalpy

Function Modelica.Media.Water.WaterIF97_R2pT.dewEnthalpy
Dew curve specific enthalpy of water

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.dewEnthalpy (Return dew point specific enthalpy).

Inputs

Type	Name	Description
`SaturationProperties`	`sat`	Saturation property record

Outputs

Type	Name	Description
`SpecificEnthalpy`	`hv`	Dew curve specific enthalpy

Function Modelica.Media.Water.WaterIF97_R2pT.bubbleEntropy
Boiling curve specific entropy of water

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.bubbleEntropy (Return bubble point specific entropy).

Inputs

Type	Name	Description
`SaturationProperties`	`sat`	Saturation property record

Outputs

Type	Name	Description
`SpecificEntropy`	`sl`	Boiling curve specific entropy

Function Modelica.Media.Water.WaterIF97_R2pT.dewEntropy
Dew curve specific entropy of water

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.dewEntropy (Return dew point specific entropy).

Inputs

Type	Name	Description
`SaturationProperties`	`sat`	Saturation property record

Outputs

Type	Name	Description
`SpecificEntropy`	`sv`	Dew curve specific entropy

Function Modelica.Media.Water.WaterIF97_R2pT.bubbleDensity
Boiling curve specific density of water

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.bubbleDensity (Return bubble point density).

Inputs

Type	Name	Description
`SaturationProperties`	`sat`	Saturation property record

Outputs

Type	Name	Description
`Density`	`dl`	Boiling curve density

Function Modelica.Media.Water.WaterIF97_R2pT.dewDensity
Dew curve specific density of water

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.dewDensity (Return dew point density).

Inputs

Type	Name	Description
`SaturationProperties`	`sat`	Saturation property record

Outputs

Type	Name	Description
`Density`	`dv`	Dew curve density

Function Modelica.Media.Water.WaterIF97_R2pT.saturationPressure
Saturation pressure of water

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.saturationPressure (Return saturation pressure).

Inputs

Type	Name	Description
`Temperature`	`T`	Temperature

Outputs

Type	Name	Description
`AbsolutePressure`	`p`	Saturation pressure

Function Modelica.Media.Water.WaterIF97_R2pT.saturationTemperature
Saturation temperature of water

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.saturationTemperature (Return saturation temperature).

Inputs

Type	Name	Description
`AbsolutePressure`	`p`	Pressure

Outputs

Type	Name	Description
`Temperature`	`T`	Saturation temperature

Function Modelica.Media.Water.WaterIF97_R2pT.saturationPressure_sat
Return saturation pressure

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`SaturationProperties`	`sat`	Saturation property record

Outputs

Type	Name	Description
`AbsolutePressure`	`p`	Saturation pressure

Function Modelica.Media.Water.WaterIF97_R2pT.saturationTemperature_sat
Return saturation temperature

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`SaturationProperties`	`sat`	Saturation property record

Outputs

Type	Name	Description
`Temperature`	`T`	Saturation temperature

Function Modelica.Media.Water.WaterIF97_R2pT.saturationTemperature_derp
Derivative of saturation temperature w.r.t. pressure

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.saturationTemperature_derp (Return derivative of saturation temperature w.r.t. pressure).

Inputs

Type	Name	Description
`AbsolutePressure`	`p`	Pressure

Outputs

Type	Name	Description
`DerTemperatureByPressure`	`dTp`	Derivative of saturation temperature w.r.t. pressure

Function Modelica.Media.Water.WaterIF97_R2pT.saturationTemperature_derp_sat
Return derivative of saturation temperature w.r.t. pressure

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`SaturationProperties`	`sat`	Saturation property record

Outputs

Type	Name	Description
`DerTemperatureByPressure`	`dTp`	Derivative of saturation temperature w.r.t. pressure

Function Modelica.Media.Water.WaterIF97_R2pT.surfaceTension
Surface tension in two phase region of water

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.surfaceTension (Return surface tension sigma in the two phase region).

Inputs

Type	Name	Description
`SaturationProperties`	`sat`	Saturation property record

Outputs

Type	Name	Description
`SurfaceTension`	`sigma`	Surface tension sigma in the two phase region

Function Modelica.Media.Water.WaterIF97_R2pT.dBubbleDensity_dPressure
Bubble point density derivative

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.dBubbleDensity_dPressure (Return bubble point density derivative).

Inputs

Type	Name	Description
`SaturationProperties`	`sat`	Saturation property record

Outputs

Type	Name	Description
`DerDensityByPressure`	`ddldp`	Boiling curve density derivative

Function Modelica.Media.Water.WaterIF97_R2pT.dDewDensity_dPressure
Dew point density derivative

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.dDewDensity_dPressure (Return dew point density derivative).

Inputs

Type	Name	Description
`SaturationProperties`	`sat`	Saturation property record

Outputs

Type	Name	Description
`DerDensityByPressure`	`ddvdp`	Saturated steam density derivative

Function Modelica.Media.Water.WaterIF97_R2pT.dBubbleEnthalpy_dPressure
Bubble point specific enthalpy derivative

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.dBubbleEnthalpy_dPressure (Return bubble point specific enthalpy derivative).

Inputs

Type	Name	Description
`SaturationProperties`	`sat`	Saturation property record

Outputs

Type	Name	Description
`DerEnthalpyByPressure`	`dhldp`	Boiling curve specific enthalpy derivative

Function Modelica.Media.Water.WaterIF97_R2pT.dDewEnthalpy_dPressure
Dew point specific enthalpy derivative

Information

This icon indicates Modelica functions.

Extends from Modelica.Media.Interfaces.PartialTwoPhaseMedium.dDewEnthalpy_dPressure (Return dew point specific enthalpy derivative).

Inputs

Type	Name	Description
`SaturationProperties`	`sat`	Saturation property record

Outputs

Type	Name	Description
`DerEnthalpyByPressure`	`dhvdp`	Saturated steam specific enthalpy derivative

Function Modelica.Media.Water.WaterIF97_R2pT.setState_px
Return thermodynamic state from pressure and vapour quality

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`AbsolutePressure`	`p`	Pressure
`MassFraction`	`x`	Vapour quality

Outputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Function Modelica.Media.Water.WaterIF97_R2pT.setState_Tx
Return thermodynamic state from temperature and vapour quality

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`Temperature`	`T`	Temperature
`MassFraction`	`x`	Vapour quality

Outputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Function Modelica.Media.Water.WaterIF97_R2pT.vapourQuality
Return vapour quality

Information

This icon indicates Modelica functions.

Extends from Modelica.Icons.Function (Icon for functions).

Inputs

Type	Name	Description
`ThermodynamicState`	`state`	Thermodynamic state record

Outputs

Type	Name	Description
`MassFraction`	`x`	Vapour quality

Package Modelica.​Media.​Water.​WaterIF97_R2pTRegion 2 (steam) water according to IF97 standard

Information

Package Contents

Package Constants

Type Modelica.​Media.​Water.​WaterIF97_R2pT.​AbsolutePressureType for absolute pressure with medium specific attributes

Attributes

Type Modelica.​Media.​Water.​WaterIF97_R2pT.​DensityType for density with medium specific attributes

Attributes

Type Modelica.​Media.​Water.​WaterIF97_R2pT.​DynamicViscosityType for dynamic viscosity with medium specific attributes

Attributes

Type Modelica.​Media.​Water.​WaterIF97_R2pT.​EnthalpyFlowRateType for enthalpy flow rate with medium specific attributes

Attributes

Type Modelica.​Media.​Water.​WaterIF97_R2pT.​MassFractionType for mass fraction with medium specific attributes

Attributes

Type Modelica.​Media.​Water.​WaterIF97_R2pT.​MoleFractionType for mole fraction with medium specific attributes

Attributes

Type Modelica.​Media.​Water.​WaterIF97_R2pT.​MolarMassType for molar mass with medium specific attributes

Attributes

Type Modelica.​Media.​Water.​WaterIF97_R2pT.​MolarVolumeType for molar volume with medium specific attributes

Attributes

Type Modelica.​Media.​Water.​WaterIF97_R2pT.​IsentropicExponentType for isentropic exponent with medium specific attributes

Attributes

Type Modelica.​Media.​Water.​WaterIF97_R2pT.​SpecificEnergyType for specific energy with medium specific attributes

Attributes

Type Modelica.​Media.​Water.​WaterIF97_R2pT.​SpecificInternalEnergyType for specific internal energy with medium specific attributes

Attributes

Type Modelica.​Media.​Water.​WaterIF97_R2pT.​SpecificEnthalpyType for specific enthalpy with medium specific attributes

Attributes

Type Modelica.​Media.​Water.​WaterIF97_R2pT.​SpecificEntropyType for specific entropy with medium specific attributes

Attributes

Type Modelica.​Media.​Water.​WaterIF97_R2pT.​SpecificHeatCapacityType for specific heat capacity with medium specific attributes

Attributes

Type Modelica.​Media.​Water.​WaterIF97_R2pT.​SurfaceTensionType for surface tension with medium specific attributes

Attributes

Type Modelica.​Media.​Water.​WaterIF97_R2pT.​TemperatureType for temperature with medium specific attributes

Attributes

Type Modelica.​Media.​Water.​WaterIF97_R2pT.​ThermalConductivityType for thermal conductivity with medium specific attributes

Attributes

Type Modelica.​Media.​Water.​WaterIF97_R2pT.​PrandtlNumberType for Prandtl number with medium specific attributes

Attributes

Type Modelica.​Media.​Water.​WaterIF97_R2pT.​VelocityOfSoundType for velocity of sound with medium specific attributes

Attributes

Type Modelica.​Media.​Water.​WaterIF97_R2pT.​ExtraPropertyType for unspecified, mass-specific property transported by flow

Attributes

Type Modelica.​Media.​Water.​WaterIF97_R2pT.​CumulativeExtraPropertyType for conserved integral of unspecified, mass specific property

Attributes

Type Modelica.​Media.​Water.​WaterIF97_R2pT.​ExtraPropertyFlowRateType for flow rate of unspecified, mass-specific property

Attributes

Type Modelica.​Media.​Water.​WaterIF97_R2pT.​IsobaricExpansionCoefficientType for isobaric expansion coefficient with medium specific attributes

Attributes

Type Modelica.​Media.​Water.​WaterIF97_R2pT.​DipoleMomentType for dipole moment with medium specific attributes

Attributes

Type Modelica.​Media.​Water.​WaterIF97_R2pT.​DerDensityByPressureType for partial derivative of density with respect to pressure with medium specific attributes

Attributes

Type Modelica.​Media.​Water.​WaterIF97_R2pT.​DerDensityByEnthalpyType for partial derivative of density with respect to enthalpy with medium specific attributes

Attributes

Type Modelica.​Media.​Water.​WaterIF97_R2pT.​DerEnthalpyByPressureType for partial derivative of enthalpy with respect to pressure with medium specific attributes

Attributes

Type Modelica.​Media.​Water.​WaterIF97_R2pT.​DerDensityByTemperatureType for partial derivative of density with respect to temperature with medium specific attributes

Attributes

Type Modelica.​Media.​Water.​WaterIF97_R2pT.​DerTemperatureByPressureType for partial derivative of temperature with respect to pressure with medium specific attributes

Attributes

Record Modelica.​Media.​Water.​WaterIF97_R2pT.​SaturationPropertiesSaturation properties of two phase medium

Information

Fields

Record Modelica.​Media.​Water.​WaterIF97_R2pT.​FluidLimitsValidity limits for fluid model

Information

Fields

Type Modelica.​Media.​Water.​WaterIF97_R2pT.​FixedPhasePhase of the fluid: 1 for 1-phase, 2 for two-phase, 0 for not known, e.g., interactive use

Attributes

Record Modelica.​Media.​Water.​WaterIF97_R2pT.​FluidConstantsExtended fluid constants

Information

Fields

Record Modelica.​Media.​Water.​WaterIF97_R2pT.​ThermodynamicStateThermodynamic state

Information

Fields

Model Modelica.​Media.​Water.​WaterIF97_R2pT.​BasePropertiesBase properties of water

Information

Parameters

Connectors

Package Modelica.Media.Water.WaterIF97_R2pT
Region 2 (steam) water according to IF97 standard

Type Modelica.Media.Water.WaterIF97_R2pT.AbsolutePressure
Type for absolute pressure with medium specific attributes

Type Modelica.Media.Water.WaterIF97_R2pT.Density
Type for density with medium specific attributes

Type Modelica.Media.Water.WaterIF97_R2pT.DynamicViscosity
Type for dynamic viscosity with medium specific attributes

Type Modelica.Media.Water.WaterIF97_R2pT.EnthalpyFlowRate
Type for enthalpy flow rate with medium specific attributes

Type Modelica.Media.Water.WaterIF97_R2pT.MassFraction
Type for mass fraction with medium specific attributes

Type Modelica.Media.Water.WaterIF97_R2pT.MoleFraction
Type for mole fraction with medium specific attributes

Type Modelica.Media.Water.WaterIF97_R2pT.MolarMass
Type for molar mass with medium specific attributes

Type Modelica.Media.Water.WaterIF97_R2pT.MolarVolume
Type for molar volume with medium specific attributes

Type Modelica.Media.Water.WaterIF97_R2pT.IsentropicExponent
Type for isentropic exponent with medium specific attributes

Type Modelica.Media.Water.WaterIF97_R2pT.SpecificEnergy
Type for specific energy with medium specific attributes

Type Modelica.Media.Water.WaterIF97_R2pT.SpecificInternalEnergy
Type for specific internal energy with medium specific attributes

Type Modelica.Media.Water.WaterIF97_R2pT.SpecificEnthalpy
Type for specific enthalpy with medium specific attributes

Type Modelica.Media.Water.WaterIF97_R2pT.SpecificEntropy
Type for specific entropy with medium specific attributes

Type Modelica.Media.Water.WaterIF97_R2pT.SpecificHeatCapacity
Type for specific heat capacity with medium specific attributes

Type Modelica.Media.Water.WaterIF97_R2pT.SurfaceTension
Type for surface tension with medium specific attributes

Type Modelica.Media.Water.WaterIF97_R2pT.Temperature
Type for temperature with medium specific attributes

Type Modelica.Media.Water.WaterIF97_R2pT.ThermalConductivity
Type for thermal conductivity with medium specific attributes

Type Modelica.Media.Water.WaterIF97_R2pT.PrandtlNumber
Type for Prandtl number with medium specific attributes

Type Modelica.Media.Water.WaterIF97_R2pT.VelocityOfSound
Type for velocity of sound with medium specific attributes

Type Modelica.Media.Water.WaterIF97_R2pT.ExtraProperty
Type for unspecified, mass-specific property transported by flow

Type Modelica.Media.Water.WaterIF97_R2pT.CumulativeExtraProperty
Type for conserved integral of unspecified, mass specific property

Type Modelica.Media.Water.WaterIF97_R2pT.ExtraPropertyFlowRate
Type for flow rate of unspecified, mass-specific property

Type Modelica.Media.Water.WaterIF97_R2pT.IsobaricExpansionCoefficient
Type for isobaric expansion coefficient with medium specific attributes

Type Modelica.Media.Water.WaterIF97_R2pT.DipoleMoment
Type for dipole moment with medium specific attributes

Type Modelica.Media.Water.WaterIF97_R2pT.DerDensityByPressure
Type for partial derivative of density with respect to pressure with medium specific attributes

Type Modelica.Media.Water.WaterIF97_R2pT.DerDensityByEnthalpy
Type for partial derivative of density with respect to enthalpy with medium specific attributes

Type Modelica.Media.Water.WaterIF97_R2pT.DerEnthalpyByPressure
Type for partial derivative of enthalpy with respect to pressure with medium specific attributes

Type Modelica.Media.Water.WaterIF97_R2pT.DerDensityByTemperature
Type for partial derivative of density with respect to temperature with medium specific attributes

Type Modelica.Media.Water.WaterIF97_R2pT.DerTemperatureByPressure
Type for partial derivative of temperature with respect to pressure with medium specific attributes

Record Modelica.Media.Water.WaterIF97_R2pT.SaturationProperties
Saturation properties of two phase medium

Record Modelica.Media.Water.WaterIF97_R2pT.FluidLimits
Validity limits for fluid model

Type Modelica.Media.Water.WaterIF97_R2pT.FixedPhase
Phase of the fluid: 1 for 1-phase, 2 for two-phase, 0 for not known, e.g., interactive use

Record Modelica.Media.Water.WaterIF97_R2pT.FluidConstants
Extended fluid constants

Record Modelica.Media.Water.WaterIF97_R2pT.ThermodynamicState
Thermodynamic state

Model Modelica.Media.Water.WaterIF97_R2pT.BaseProperties
Base properties of water

Function Modelica.Media.Water.WaterIF97_R2pT.setState_pTX
Return thermodynamic state of water as function of p, T, and optional region

Function Modelica.Media.Water.WaterIF97_R2pT.setState_phX
Return thermodynamic state of water as function of p, h, and optional region

Function Modelica.Media.Water.WaterIF97_R2pT.setState_psX
Return thermodynamic state of water as function of p, s, and optional region

Function Modelica.Media.Water.WaterIF97_R2pT.setState_dTX
Return thermodynamic state of water as function of d, T, and optional region

Function Modelica.Media.Water.WaterIF97_R2pT.setSmoothState
Return thermodynamic state so that it smoothly approximates: if x > 0 then state_a else state_b

Function Modelica.Media.Water.WaterIF97_R2pT.dynamicViscosity
Dynamic viscosity of water

Function Modelica.Media.Water.WaterIF97_R2pT.thermalConductivity
Thermal conductivity of water

Function Modelica.Media.Water.WaterIF97_R2pT.prandtlNumber
Return the Prandtl number

Function Modelica.Media.Water.WaterIF97_R2pT.pressure
Return pressure of ideal gas

Function Modelica.Media.Water.WaterIF97_R2pT.temperature
Return temperature of ideal gas

Function Modelica.Media.Water.WaterIF97_R2pT.density
Return density of ideal gas

Function Modelica.Media.Water.WaterIF97_R2pT.specificEnthalpy
Return specific enthalpy

Function Modelica.Media.Water.WaterIF97_R2pT.specificInternalEnergy
Return specific internal energy

Function Modelica.Media.Water.WaterIF97_R2pT.specificEntropy
Specific entropy of water

Function Modelica.Media.Water.WaterIF97_R2pT.specificGibbsEnergy
Return specific Gibbs energy

Function Modelica.Media.Water.WaterIF97_R2pT.specificHelmholtzEnergy
Return specific Helmholtz energy

Function Modelica.Media.Water.WaterIF97_R2pT.specificHeatCapacityCp
Specific heat capacity at constant pressure of water

Function Modelica.Media.Water.WaterIF97_R2pT.heatCapacity_cp
Alias for deprecated name