Cantera  3.1.0b1
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VCS_SPECIES_THERMO Class Reference

Identifies the thermo model for the species. More...

#include <vcs_species_thermo.h>

Detailed Description

Identifies the thermo model for the species.

This structure is shared by volumetric and surface species. However, each will have its own types of thermodynamic models. These quantities all have appropriate units.

Definition at line 32 of file vcs_species_thermo.h.

Public Attributes

size_t IndexPhase = 0
 Index of the phase that this species belongs to.
 
size_t IndexSpeciesPhase = 0
 Index of this species in the current phase.
 
vcs_VolPhaseOwningPhase = nullptr
 Pointer to the owning phase object.
 
int SS0_Model = VCS_SS0_CONSTANT
 Integer representing the models for the species standard state Naught temperature dependence.
 
double SS0_feSave = 0.0
 Internal storage of the last calculation of the reference naught Gibbs free energy at SS0_TSave.
 
double SS0_TSave = -90.0
 Internal storage of the last temperature used in the calculation of the reference naught Gibbs free energy.
 
double SS0_T0 = 273.15
 Base temperature used in the VCS_SS0_CONSTANT_CP model.
 
double SS0_H0 = 0.0
 Base enthalpy used in the VCS_SS0_CONSTANT_CP model.
 
double SS0_S0 = 0.0
 Base entropy used in the VCS_SS0_CONSTANT_CP model.
 
double SS0_Cp0 = 0.0
 Base heat capacity used in the VCS_SS0_CONSTANT_CP model.
 
double SS0_Pref = OneAtm
 Value of the pressure for the reference state.
 
int SSStar_Model = VCS_SSSTAR_CONSTANT
 Integer value representing the star state model.
 
int SSStar_Vol_Model = VCS_SSVOL_IDEALGAS
 Models for the standard state volume of each species.
 
double SSStar_Vol0 = -1
 parameter that is used in the VCS_SSVOL_CONSTANT model.
 

Member Data Documentation

◆ IndexPhase

size_t IndexPhase = 0

Index of the phase that this species belongs to.

Definition at line 41 of file vcs_species_thermo.h.

◆ IndexSpeciesPhase

size_t IndexSpeciesPhase = 0

Index of this species in the current phase.

Definition at line 44 of file vcs_species_thermo.h.

◆ OwningPhase

vcs_VolPhase* OwningPhase = nullptr

Pointer to the owning phase object.

Definition at line 47 of file vcs_species_thermo.h.

◆ SS0_Model

int SS0_Model = VCS_SS0_CONSTANT

Integer representing the models for the species standard state Naught temperature dependence.

They are listed above and start with VCS_SS0_...

Definition at line 51 of file vcs_species_thermo.h.

◆ SS0_feSave

double SS0_feSave = 0.0

Internal storage of the last calculation of the reference naught Gibbs free energy at SS0_TSave.

(always in units of Kelvin)

Definition at line 55 of file vcs_species_thermo.h.

◆ SS0_TSave

double SS0_TSave = -90.0

Internal storage of the last temperature used in the calculation of the reference naught Gibbs free energy.

units = kelvin

Definition at line 59 of file vcs_species_thermo.h.

◆ SS0_T0

double SS0_T0 = 273.15

Base temperature used in the VCS_SS0_CONSTANT_CP model.

Definition at line 62 of file vcs_species_thermo.h.

◆ SS0_H0

double SS0_H0 = 0.0

Base enthalpy used in the VCS_SS0_CONSTANT_CP model.

Definition at line 65 of file vcs_species_thermo.h.

◆ SS0_S0

double SS0_S0 = 0.0

Base entropy used in the VCS_SS0_CONSTANT_CP model.

Definition at line 68 of file vcs_species_thermo.h.

◆ SS0_Cp0

double SS0_Cp0 = 0.0

Base heat capacity used in the VCS_SS0_CONSTANT_CP model.

Definition at line 71 of file vcs_species_thermo.h.

◆ SS0_Pref

double SS0_Pref = OneAtm

Value of the pressure for the reference state.

Definition at line 74 of file vcs_species_thermo.h.

◆ SSStar_Model

int SSStar_Model = VCS_SSSTAR_CONSTANT

Integer value representing the star state model.

Definition at line 77 of file vcs_species_thermo.h.

◆ SSStar_Vol_Model

int SSStar_Vol_Model = VCS_SSVOL_IDEALGAS

Models for the standard state volume of each species.

Definition at line 80 of file vcs_species_thermo.h.

◆ SSStar_Vol0

double SSStar_Vol0 = -1

parameter that is used in the VCS_SSVOL_CONSTANT model.

Definition at line 83 of file vcs_species_thermo.h.


The documentation for this class was generated from the following file: