This package contains different medium models for water:
The WaterIF97 models calculate medium properties for water in the liquid, gas and two phase regions according to the IAPWS/IF97 standard, i.e., the accepted industrial standard and best compromise between accuracy and computation time. It has been part of the ThermoFluid Modelica library and been extended, reorganized and documented to become part of the Modelica Standard library.
An important feature that distinguishes this implementation of the IF97 steam property standard is that this implementation has been explicitly designed to work well in dynamic simulations. Computational performance has been of high importance. This means that there often exist several ways to get the same result from different functions if one of the functions is called often but can be optimized for that purpose.
Three variable pairs can be the independent variables of the model:
The following quantities are always computed in Medium.Baseproperties:
Variable | Unit | Description |
T | K | temperature |
u | J/kg | specific internal energy |
d | kg/m^3 | density |
p | Pa | pressure |
h | J/kg | specific enthalpy |
In some cases additional medium properties are needed. A component that needs these optional properties has to call one of the following functions:
Function call | Unit | Description |
Medium.dynamicViscosity(medium.state) | Pa.s | dynamic viscosity |
Medium.thermalConductivity(medium.state) | W/(m.K) | thermal conductivity |
Medium.prandtlNumber(medium.state) | 1 | Prandtl number |
Medium.specificEntropy(medium.state) | J/(kg.K) | specific entropy |
Medium.heatCapacity_cp(medium.state) | J/(kg.K) | specific heat capacity at constant pressure |
Medium.heatCapacity_cv(medium.state) | J/(kg.K) | specific heat capacity at constant density |
Medium.isentropicExponent(medium.state) | 1 | isentropic exponent |
Medium.isentropicEnthalpy(pressure, medium.state) | J/kg | isentropic enthalpy |
Medium.velocityOfSound(medium.state) | m/s | velocity of sound |
Medium.isobaricExpansionCoefficient(medium.state) | 1/K | isobaric expansion coefficient |
Medium.isothermalCompressibility(medium.state) | 1/Pa | isothermal compressibility |
Medium.density_derp_h(medium.state) | kg/(m3.Pa) | derivative of density by pressure at constant enthalpy |
Medium.density_derh_p(medium.state) | kg2/(m3.J) | derivative of density by enthalpy at constant pressure |
Medium.density_derp_T(medium.state) | kg/(m3.Pa) | derivative of density by pressure at constant temperature |
Medium.density_derT_p(medium.state) | kg/(m3.K) | derivative of density by temperature at constant pressure |
Medium.density_derX(medium.state) | kg/m3 | derivative of density by mass fraction |
Medium.molarMass(medium.state) | kg/mol | molar mass |
More details are given in Modelica.Media.UsersGuide.MediumUsage.OptionalProperties. Many additional optional functions are defined to compute properties of saturated media, either liquid (bubble point) or vapour (dew point). The argument to such functions is a SaturationProperties record, which can be set starting from either the saturation pressure or the saturation temperature. With reference to a model defining a pressure p, a temperature T, and a SaturationProperties record sat, the following functions are provided:
Function call | Unit | Description |
Medium.saturationPressure(T) | Pa | Saturation pressure at temperature T |
Medium.saturationTemperature(p) | K | Saturation temperature at pressure p |
Medium.saturationTemperature_derp(p) | K/Pa | Derivative of saturation temperature with respect to pressure |
Medium.bubbleEnthalpy(sat) | J/kg | Specific enthalpy at bubble point |
Medium.dewEnthalpy(sat) | J/kg | Specific enthalpy at dew point |
Medium.bubbleEntropy(sat) | J/(kg.K) | Specific entropy at bubble point |
Medium.dewEntropy(sat) | J/(kg.K) | Specific entropy at dew point |
Medium.bubbleDensity(sat) | kg/m3 | Density at bubble point |
Medium.dewDensity(sat) | kg/m3 | Density at dew point |
Medium.dBubbleDensity_dPressure(sat) | kg/(m3.Pa) | Derivative of density at bubble point with respect to pressure |
Medium.dDewDensity_dPressure(sat) | kg/(m3.Pa) | Derivative of density at dew point with respect to pressure |
Medium.dBubbleEnthalpy_dPressure(sat) | J/(kg.Pa) | Derivative of specific enthalpy at bubble point with respect to pressure |
Medium.dDewEnthalpy_dPressure(sat) | J/(kg.Pa) | Derivative of specific enthalpy at dew point with respect to pressure |
Medium.surfaceTension(sat) | N/m | Surface tension between liquid and vapour phase |
Details on usage and some examples are given in: Modelica.Media.UsersGuide.MediumUsage.TwoPhase.
Many further properties can be computed. Using the well-known Bridgman's Tables, all first partial derivatives of the standard thermodynamic variables can be computed easily.
The documentation of the IAPWS/IF97 steam properties can be freely distributed with computer implementations and are included here (in directory Modelica\help\Documentation\IF97documentation):
Name | Description |
---|---|
Common | |
IF97_Utilities | Low level and utility computation for high accuracy water properties according to the IAPWS/IF97 standard |
PartialMedium | Partial medium properties (base package of all media packages) |
PartialMediumReaction | Partial medium properties (base package of all media packages) |
PartialWaterBased | |
PartialWaterBasedReaction |