.Modelica.Media.Water.IF97_Utilities

Information

Package description:

This package provides high accuracy physical properties for water according to the IAPWS/IF97 standard. 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.

The original documentation of the IAPWS/IF97 steam properties can freely be distributed with computer implementations, so for curious minds the complete standard documentation is provided with the Modelica properties library. The following documents are included (in directory Modelica/Resources/Documentation/Media/Water/IF97documentation):

Package contents

Version Info and Revision history

Author: Hubertus Tummescheit,
Modelon AB
Ideon Science Park
SE-22370 Lund, Sweden
email: hubertus@modelon.se

Contents

Name Description
 BaseIF97 Modelica Physical Property Model: the new industrial formulation IAPWS-IF97
 iter
 waterBaseProp_ph Intermediate property record for water
 waterBaseProp_ps Intermediate property record for water
 rho_props_ps Density as function of pressure and specific entropy
 rho_ps Density as function of pressure and specific entropy
 T_props_ps Temperature as function of pressure and specific entropy
 T_ps Temperature as function of pressure and specific entropy
 h_props_ps Specific enthalpy as function or pressure and temperature
 h_ps Specific enthalpy as function or pressure and temperature
 phase_ps Phase as a function of pressure and specific entropy
 phase_ph Phase as a function of pressure and specific enthalpy
 phase_dT Phase as a function of pressure and temperature
 rho_props_ph Density as function of pressure and specific enthalpy
 rho_ph Density as function of pressure and specific enthalpy
 rho_ph_der Derivative function of rho_ph
 T_props_ph Temperature as function of pressure and specific enthalpy
 T_ph Temperature as function of pressure and specific enthalpy
 T_ph_der Derivative function of T_ph
 s_props_ph Specific entropy as function of pressure and specific enthalpy
 s_ph Specific entropy as function of pressure and specific enthalpy
 s_ph_der Specific entropy as function of pressure and specific enthalpy
 cv_props_ph Specific heat capacity at constant volume as function of pressure and specific enthalpy
 cv_ph Specific heat capacity at constant volume as function of pressure and specific enthalpy
 regionAssertReal Assert function for inlining
 cp_props_ph Specific heat capacity at constant pressure as function of pressure and specific enthalpy
 cp_ph Specific heat capacity at constant pressure as function of pressure and specific enthalpy
 beta_props_ph Isobaric expansion coefficient as function of pressure and specific enthalpy
 beta_ph Isobaric expansion coefficient as function of pressure and specific enthalpy
 kappa_props_ph Isothermal compressibility factor as function of pressure and specific enthalpy
 kappa_ph Isothermal compressibility factor as function of pressure and specific enthalpy
 velocityOfSound_props_ph Speed of sound as function of pressure and specific enthalpy
 velocityOfSound_ph
 isentropicExponent_props_ph Isentropic exponent as function of pressure and specific enthalpy
 isentropicExponent_ph Isentropic exponent as function of pressure and specific enthalpy
 ddph_props Density derivative by pressure
 ddph Density derivative by pressure
 ddhp_props Density derivative by specific enthalpy
 ddhp Density derivative by specific enthalpy
 waterBaseProp_pT Intermediate property record for water (p and T preferred states)
 rho_props_pT Density as function or pressure and temperature
 rho_pT Density as function or pressure and temperature
 h_props_pT Specific enthalpy as function or pressure and temperature
 h_pT Specific enthalpy as function or pressure and temperature
 h_pT_der Derivative function of h_pT
 rho_pT_der Derivative function of rho_pT
 s_props_pT Specific entropy as function of pressure and temperature
 s_pT Temperature as function of pressure and temperature
 cv_props_pT Specific heat capacity at constant volume as function of pressure and temperature
 cv_pT Specific heat capacity at constant volume as function of pressure and temperature
 cp_props_pT Specific heat capacity at constant pressure as function of pressure and temperature
 cp_pT Specific heat capacity at constant pressure as function of pressure and temperature
 beta_props_pT Isobaric expansion coefficient as function of pressure and temperature
 beta_pT Isobaric expansion coefficient as function of pressure and temperature
 kappa_props_pT Isothermal compressibility factor as function of pressure and temperature
 kappa_pT Isothermal compressibility factor as function of pressure and temperature
 velocityOfSound_props_pT Speed of sound as function of pressure and temperature
 velocityOfSound_pT Speed of sound as function of pressure and temperature
 isentropicExponent_props_pT Isentropic exponent as function of pressure and temperature
 isentropicExponent_pT Isentropic exponent as function of pressure and temperature
 waterBaseProp_dT Intermediate property record for water (d and T preferred states)
 h_props_dT Specific enthalpy as function of density and temperature
 h_dT Specific enthalpy as function of density and temperature
 h_dT_der Derivative function of h_dT
 p_props_dT Pressure as function of density and temperature
 p_dT Pressure as function of density and temperature
 p_dT_der Derivative function of p_dT
 s_props_dT Specific entropy as function of density and temperature
 s_dT Temperature as function of density and temperature
 cv_props_dT Specific heat capacity at constant volume as function of density and temperature
 cv_dT Specific heat capacity at constant volume as function of density and temperature
 cp_props_dT Specific heat capacity at constant pressure as function of density and temperature
 cp_dT Specific heat capacity at constant pressure as function of density and temperature
 beta_props_dT Isobaric expansion coefficient as function of density and temperature
 beta_dT Isobaric expansion coefficient as function of density and temperature
 kappa_props_dT Isothermal compressibility factor as function of density and temperature
 kappa_dT Isothermal compressibility factor as function of density and temperature
 velocityOfSound_props_dT Speed of sound as function of density and temperature
 velocityOfSound_dT Speed of sound as function of density and temperature
 isentropicExponent_props_dT Isentropic exponent as function of density and temperature
 isentropicExponent_dT Isentropic exponent as function of density and temperature
 hl_p Compute the saturated liquid specific h(p)
 hv_p Compute the saturated vapour specific h(p)
 sl_p Compute the saturated liquid specific s(p)
 sv_p Compute the saturated vapour specific s(p)
 rhol_T Compute the saturated liquid d(T)
 rhov_T Compute the saturated vapour d(T)
 rhol_p Compute the saturated liquid d(p)
 rhov_p Compute the saturated vapour d(p)
 dynamicViscosity Compute eta(d,T) in the one-phase region
 thermalConductivity Compute lambda(d,T,p) in the one-phase region
 surfaceTension Compute sigma(T) at saturation T
 isentropicEnthalpy Isentropic specific enthalpy from p,s (preferably use dynamicIsentropicEnthalpy in dynamic simulation!)
 isentropicEnthalpy_props
 isentropicEnthalpy_der Derivative of isentropic specific enthalpy from p,s
 dynamicIsentropicEnthalpy Isentropic specific enthalpy from p,s and good guesses of d and T

Revisions

Intermediate release notes during development

Currently the Events/noEvents switch is only implemented for p-h states. Only after testing that implementation, it will be extended to dT.


Generated at 2020-06-05T07:38:22Z by OpenModelica 1.16.0~dev-420-gc007a39