Cantera
2.1.2
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This is a filter class for ThermoPhase that implements some prepatory steps for efficiently handling a variable pressure standard state for species. More...
#include <VPStandardStateTP.h>
Protected Attributes | |
doublereal | m_Pcurrent |
Current value of the pressure - state variable. More... | |
doublereal | m_Tlast_ss |
The last temperature at which the standard statethermodynamic properties were calculated at. More... | |
doublereal | m_Plast_ss |
The last pressure at which the Standard State thermodynamic properties were calculated at. More... | |
doublereal | m_P0 |
VPSSMgr * | m_VPSS_ptr |
Pointer to the VPSS manager that calculates all of the standard state info efficiently. More... | |
std::vector< PDSS * > | m_PDSS_storage |
Storage for the PDSS objects for the species. More... | |
Protected Attributes inherited from ThermoPhase | |
SpeciesThermo * | m_spthermo |
Pointer to the calculation manager for species reference-state thermodynamic properties. More... | |
std::vector< const XML_Node * > | m_speciesData |
Vector of pointers to the species databases. More... | |
doublereal | m_phi |
Stored value of the electric potential for this phase. More... | |
vector_fp | m_lambdaRRT |
Vector of element potentials. More... | |
bool | m_hasElementPotentials |
Boolean indicating whether there is a valid set of saved element potentials for this phase. More... | |
bool | m_chargeNeutralityNecessary |
Boolean indicating whether a charge neutrality condition is a necessity. More... | |
int | m_ssConvention |
Contains the standard state convention. More... | |
std::vector< doublereal > | xMol_Ref |
Reference Mole Fraction Composition. More... | |
Protected Attributes inherited from Phase | |
size_t | m_kk |
Number of species in the phase. More... | |
size_t | m_ndim |
Dimensionality of the phase. More... | |
vector_fp | m_speciesComp |
Atomic composition of the species. More... | |
vector_fp | m_speciesSize |
Vector of species sizes. More... | |
vector_fp | m_speciesCharge |
Vector of species charges. length m_kk. More... | |
Private Member Functions | |
doublereal | err (const std::string &msg) const |
VPStandardStateTP has its own err routine. More... | |
Constructors and Duplicators for VPStandardStateTP | |
VPStandardStateTP () | |
Constructor. More... | |
VPStandardStateTP (const VPStandardStateTP &b) | |
Copy Constructor. More... | |
VPStandardStateTP & | operator= (const VPStandardStateTP &b) |
Assignment operator. More... | |
virtual | ~VPStandardStateTP () |
Destructor. More... | |
virtual ThermoPhase * | duplMyselfAsThermoPhase () const |
Duplication routine. More... | |
Utilities (VPStandardStateTP) | |
virtual int | eosType () const |
Equation of state type flag. More... | |
virtual int | standardStateConvention () const |
This method returns the convention used in specification of the standard state, of which there are currently two, temperature based, and variable pressure based. More... | |
virtual void | getdlnActCoeffdlnN_diag (doublereal *dlnActCoeffdlnN_diag) const |
Get the array of log concentration-like derivatives of the log activity coefficients. More... | |
Partial Molar Properties of the Solution (VPStandardStateTP) | |
void | getChemPotentials_RT (doublereal *mu) const |
Get the array of non-dimensional species chemical potentials. More... | |
Properties of the Standard State of the Species in the Solution (VPStandardStateTP) | |
Within VPStandardStateTP, these properties are calculated via a common routine, _updateStandardStateThermo(), which must be overloaded in inherited objects. The values are cached within this object, and are not recalculated unless the temperature or pressure changes. | |
virtual void | getStandardChemPotentials (doublereal *mu) const |
Get the array of chemical potentials at unit activity. More... | |
virtual void | getEnthalpy_RT (doublereal *hrt) const |
Get the nondimensional Enthalpy functions for the species at their standard states at the current T and P of the solution. More... | |
virtual void | getEntropy_R (doublereal *sr) const |
Get the array of nondimensional Enthalpy functions for the standard state species at the current T and P of the solution. More... | |
virtual void | getGibbs_RT (doublereal *grt) const |
Get the nondimensional Gibbs functions for the species at their standard states of solution at the current T and P of the solution. More... | |
void | getPureGibbs (doublereal *gpure) const |
Get the standard state Gibbs functions for each species at the current T and P. More... | |
virtual void | getIntEnergy_RT (doublereal *urt) const |
Returns the vector of nondimensional internal Energies of the standard state at the current temperature and pressure of the solution for each species. More... | |
virtual void | getCp_R (doublereal *cpr) const |
Get the nondimensional Heat Capacities at constant pressure for the standard state of the species at the current T and P. More... | |
virtual void | getStandardVolumes (doublereal *vol) const |
Get the molar volumes of each species in their standard states at the current T and P of the solution. More... | |
virtual const vector_fp & | getStandardVolumes () const |
virtual void | setTemperature (const doublereal temp) |
Set the temperature of the phase. More... | |
virtual void | setPressure (doublereal p) |
Set the internally stored pressure (Pa) at constant temperature and composition. More... | |
virtual void | setState_TP (doublereal T, doublereal pres) |
Set the temperature and pressure at the same time. More... | |
doublereal | pressure () const |
Returns the current pressure of the phase. More... | |
virtual void | updateStandardStateThermo () const |
Updates the standard state thermodynamic functions at the current T and P of the solution. More... | |
virtual void | calcDensity () |
Calculate the density of the mixture using the partial molar volumes and mole fractions as input. More... | |
virtual void | _updateStandardStateThermo () const |
Updates the standard state thermodynamic functions at the current T and P of the solution. More... | |
Thermodynamic Values for the Species Reference States (VPStandardStateTP) | |
virtual void | getEnthalpy_RT_ref (doublereal *hrt) const |
Returns the vector of nondimensional enthalpies of the reference state at the current temperature of the solution and the reference pressure for the species. More... | |
virtual void | getGibbs_RT_ref (doublereal *grt) const |
Returns the vector of nondimensional Gibbs free energies of the reference state at the current temperature of the solution and the reference pressure for the species. More... | |
virtual void | getGibbs_ref (doublereal *g) const |
virtual void | getEntropy_R_ref (doublereal *er) const |
virtual void | getCp_R_ref (doublereal *cprt) const |
virtual void | getStandardVolumes_ref (doublereal *vol) const |
Get the molar volumes of the species reference states at the current T and P_ref of the solution. More... | |
const vector_fp & | Gibbs_RT_ref () const |
Initialization Methods - For Internal use (VPStandardState) | |
virtual void | setParametersFromXML (const XML_Node &eosdata) |
Set equation of state parameter values from XML entries. More... | |
virtual void | initThermo () |
Initialize the ThermoPhase object after all species have been set up. More... | |
virtual void | initThermoXML (XML_Node &phaseNode, const std::string &id) |
Initialize a ThermoPhase object, potentially reading activity coefficient information from an XML database. More... | |
void | setVPSSMgr (VPSSMgr *vp_ptr) |
set the VPSS Mgr More... | |
VPSSMgr * | provideVPSSMgr () |
Return a pointer to the VPSSMgr for this phase. More... | |
void | createInstallPDSS (size_t k, const XML_Node &s, const XML_Node *phaseNode_ptr) |
PDSS * | providePDSS (size_t k) |
const PDSS * | providePDSS (size_t k) const |
void | initLengths () |
Additional Inherited Members | |
Public Member Functions inherited from ThermoPhase | |
ThermoPhase () | |
Constructor. More... | |
virtual | ~ThermoPhase () |
Destructor. Deletes the species thermo manager. More... | |
ThermoPhase (const ThermoPhase &right) | |
Copy Constructor for the ThermoPhase object. More... | |
ThermoPhase & | operator= (const ThermoPhase &right) |
Assignment operator. More... | |
doublereal | _RT () const |
Return the Gas Constant multiplied by the current temperature. More... | |
virtual doublereal | refPressure () const |
Returns the reference pressure in Pa. More... | |
virtual doublereal | minTemp (size_t k=npos) const |
Minimum temperature for which the thermodynamic data for the species or phase are valid. More... | |
doublereal | Hf298SS (const int k) const |
Report the 298 K Heat of Formation of the standard state of one species (J kmol-1) More... | |
virtual void | modifyOneHf298SS (const int k, const doublereal Hf298New) |
Modify the value of the 298 K Heat of Formation of one species in the phase (J kmol-1) More... | |
virtual doublereal | maxTemp (size_t k=npos) const |
Maximum temperature for which the thermodynamic data for the species are valid. More... | |
bool | chargeNeutralityNecessary () const |
Returns the chargeNeutralityNecessity boolean. More... | |
virtual doublereal | enthalpy_mole () const |
Molar enthalpy. Units: J/kmol. More... | |
virtual doublereal | intEnergy_mole () const |
Molar internal energy. Units: J/kmol. More... | |
virtual doublereal | entropy_mole () const |
Molar entropy. Units: J/kmol/K. More... | |
virtual doublereal | gibbs_mole () const |
Molar Gibbs function. Units: J/kmol. More... | |
virtual doublereal | cp_mole () const |
Molar heat capacity at constant pressure. Units: J/kmol/K. More... | |
virtual doublereal | cv_mole () const |
Molar heat capacity at constant volume. Units: J/kmol/K. More... | |
virtual doublereal | cv_vib (int, double) const |
virtual doublereal | isothermalCompressibility () const |
Returns the isothermal compressibility. Units: 1/Pa. More... | |
virtual doublereal | thermalExpansionCoeff () const |
Return the volumetric thermal expansion coefficient. Units: 1/K. More... | |
void | setElectricPotential (doublereal v) |
Set the electric potential of this phase (V). More... | |
doublereal | electricPotential () const |
Returns the electric potential of this phase (V). More... | |
virtual int | activityConvention () const |
This method returns the convention used in specification of the activities, of which there are currently two, molar- and molality-based conventions. More... | |
virtual void | getActivityConcentrations (doublereal *c) const |
This method returns an array of generalized concentrations. More... | |
virtual doublereal | standardConcentration (size_t k=0) const |
Return the standard concentration for the kth species. More... | |
virtual doublereal | logStandardConc (size_t k=0) const |
Natural logarithm of the standard concentration of the kth species. More... | |
virtual void | getUnitsStandardConc (double *uA, int k=0, int sizeUA=6) const |
Returns the units of the standard and generalized concentrations. More... | |
virtual void | getActivities (doublereal *a) const |
Get the array of non-dimensional activities at the current solution temperature, pressure, and solution concentration. More... | |
virtual void | getActivityCoefficients (doublereal *ac) const |
Get the array of non-dimensional molar-based activity coefficients at the current solution temperature, pressure, and solution concentration. More... | |
virtual void | getLnActivityCoefficients (doublereal *lnac) const |
Get the array of non-dimensional molar-based ln activity coefficients at the current solution temperature, pressure, and solution concentration. More... | |
virtual void | getChemPotentials (doublereal *mu) const |
Get the species chemical potentials. Units: J/kmol. More... | |
void | getElectrochemPotentials (doublereal *mu) const |
Get the species electrochemical potentials. More... | |
virtual void | getPartialMolarEnthalpies (doublereal *hbar) const |
Returns an array of partial molar enthalpies for the species in the mixture. More... | |
virtual void | getPartialMolarEntropies (doublereal *sbar) const |
Returns an array of partial molar entropies of the species in the solution. More... | |
virtual void | getPartialMolarIntEnergies (doublereal *ubar) const |
Return an array of partial molar internal energies for the species in the mixture. More... | |
virtual void | getPartialMolarCp (doublereal *cpbar) const |
Return an array of partial molar heat capacities for the species in the mixture. More... | |
virtual void | getPartialMolarVolumes (doublereal *vbar) const |
Return an array of partial molar volumes for the species in the mixture. More... | |
virtual void | getdPartialMolarVolumes_dT (doublereal *d_vbar_dT) const |
Return an array of derivatives of partial molar volumes wrt temperature for the species in the mixture. More... | |
virtual void | getdPartialMolarVolumes_dP (doublereal *d_vbar_dP) const |
Return an array of derivatives of partial molar volumes wrt pressure for the species in the mixture. More... | |
virtual void | getdStandardVolumes_dT (doublereal *d_vol_dT) const |
Get the derivative of the molar volumes of the species standard states wrt temperature at the current T and P of the solution. More... | |
virtual void | getdStandardVolumes_dP (doublereal *d_vol_dP) const |
Get the derivative molar volumes of the species standard states wrt pressure at the current T and P of the solution. More... | |
virtual void | getIntEnergy_RT_ref (doublereal *urt) const |
Returns the vector of nondimensional internal Energies of the reference state at the current temperature of the solution and the reference pressure for each species. More... | |
virtual void | setReferenceComposition (const doublereal *const x) |
Sets the reference composition. More... | |
virtual void | getReferenceComposition (doublereal *const x) const |
Gets the reference composition. More... | |
doublereal | enthalpy_mass () const |
Specific enthalpy. More... | |
doublereal | intEnergy_mass () const |
Specific internal energy. More... | |
doublereal | entropy_mass () const |
Specific entropy. More... | |
doublereal | gibbs_mass () const |
Specific Gibbs function. More... | |
doublereal | cp_mass () const |
Specific heat at constant pressure. More... | |
doublereal | cv_mass () const |
Specific heat at constant volume. More... | |
virtual void | setToEquilState (const doublereal *lambda_RT) |
This method is used by the ChemEquil equilibrium solver. More... | |
void | setElementPotentials (const vector_fp &lambda) |
Stores the element potentials in the ThermoPhase object. More... | |
bool | getElementPotentials (doublereal *lambda) const |
Returns the element potentials stored in the ThermoPhase object. More... | |
virtual doublereal | critTemperature () const |
Critical temperature (K). More... | |
virtual doublereal | critPressure () const |
Critical pressure (Pa). More... | |
virtual doublereal | critDensity () const |
Critical density (kg/m3). More... | |
virtual doublereal | satTemperature (doublereal p) const |
Return the saturation temperature given the pressure. More... | |
virtual doublereal | satPressure (doublereal t) |
Return the saturation pressure given the temperature. More... | |
virtual doublereal | vaporFraction () const |
Return the fraction of vapor at the current conditions. More... | |
virtual void | setState_Tsat (doublereal t, doublereal x) |
Set the state to a saturated system at a particular temperature. More... | |
virtual void | setState_Psat (doublereal p, doublereal x) |
Set the state to a saturated system at a particular pressure. More... | |
void | saveSpeciesData (const size_t k, const XML_Node *const data) |
Store a reference pointer to the XML tree containing the species data for this phase. More... | |
const std::vector< const XML_Node * > & | speciesData () const |
Return a pointer to the vector of XML nodes containing the species data for this phase. More... | |
void | setSpeciesThermo (SpeciesThermo *spthermo) |
Install a species thermodynamic property manager. More... | |
virtual SpeciesThermo & | speciesThermo (int k=-1) |
Return a changeable reference to the calculation manager for species reference-state thermodynamic properties. More... | |
virtual void | initThermoFile (const std::string &inputFile, const std::string &id) |
virtual void | installSlavePhases (Cantera::XML_Node *phaseNode) |
Add in species from Slave phases. More... | |
virtual void | setParameters (int n, doublereal *const c) |
Set the equation of state parameters. More... | |
virtual void | getParameters (int &n, doublereal *const c) const |
Get the equation of state parameters in a vector. More... | |
virtual void | setStateFromXML (const XML_Node &state) |
Set the initial state of the phase to the conditions specified in the state XML element. More... | |
virtual void | getdlnActCoeffds (const doublereal dTds, const doublereal *const dXds, doublereal *dlnActCoeffds) const |
Get the change in activity coefficients wrt changes in state (temp, mole fraction, etc) along a line in parameter space or along a line in physical space. More... | |
virtual void | getdlnActCoeffdlnX_diag (doublereal *dlnActCoeffdlnX_diag) const |
Get the array of ln mole fraction derivatives of the log activity coefficients - diagonal component only. More... | |
virtual void | getdlnActCoeffdlnN (const size_t ld, doublereal *const dlnActCoeffdlnN) |
Get the array of derivatives of the log activity coefficients with respect to the log of the species mole numbers. More... | |
virtual void | getdlnActCoeffdlnN_numderiv (const size_t ld, doublereal *const dlnActCoeffdlnN) |
virtual std::string | report (bool show_thermo=true) const |
returns a summary of the state of the phase as a string More... | |
virtual void | reportCSV (std::ofstream &csvFile) const |
returns a summary of the state of the phase to a comma separated file. More... | |
virtual void | setState_TPX (doublereal t, doublereal p, const doublereal *x) |
Set the temperature (K), pressure (Pa), and mole fractions. More... | |
virtual void | setState_TPX (doublereal t, doublereal p, compositionMap &x) |
Set the temperature (K), pressure (Pa), and mole fractions. More... | |
virtual void | setState_TPX (doublereal t, doublereal p, const std::string &x) |
Set the temperature (K), pressure (Pa), and mole fractions. More... | |
virtual void | setState_TPY (doublereal t, doublereal p, const doublereal *y) |
Set the internally stored temperature (K), pressure (Pa), and mass fractions of the phase. More... | |
virtual void | setState_TPY (doublereal t, doublereal p, compositionMap &y) |
Set the internally stored temperature (K), pressure (Pa), and mass fractions of the phase. More... | |
virtual void | setState_TPY (doublereal t, doublereal p, const std::string &y) |
Set the internally stored temperature (K), pressure (Pa), and mass fractions of the phase. More... | |
virtual void | setState_PX (doublereal p, doublereal *x) |
Set the pressure (Pa) and mole fractions. More... | |
virtual void | setState_PY (doublereal p, doublereal *y) |
Set the internally stored pressure (Pa) and mass fractions. More... | |
virtual void | setState_HP (doublereal h, doublereal p, doublereal tol=1.e-4) |
Set the internally stored specific enthalpy (J/kg) and pressure (Pa) of the phase. More... | |
virtual void | setState_UV (doublereal u, doublereal v, doublereal tol=1.e-4) |
Set the specific internal energy (J/kg) and specific volume (m^3/kg). More... | |
virtual void | setState_SP (doublereal s, doublereal p, doublereal tol=1.e-4) |
Set the specific entropy (J/kg/K) and pressure (Pa). More... | |
virtual void | setState_SV (doublereal s, doublereal v, doublereal tol=1.e-4) |
Set the specific entropy (J/kg/K) and specific volume (m^3/kg). More... | |
Public Member Functions inherited from Phase | |
Phase () | |
Default constructor. More... | |
virtual | ~Phase () |
Destructor. More... | |
Phase (const Phase &right) | |
Copy Constructor. More... | |
Phase & | operator= (const Phase &right) |
Assignment operator. More... | |
XML_Node & | xml () |
Returns a reference to the XML_Node stored for the phase. More... | |
void | saveState (vector_fp &state) const |
Save the current internal state of the phase Write to vector 'state' the current internal state. More... | |
void | saveState (size_t lenstate, doublereal *state) const |
Write to array 'state' the current internal state. More... | |
void | restoreState (const vector_fp &state) |
Restore a state saved on a previous call to saveState. More... | |
void | restoreState (size_t lenstate, const doublereal *state) |
Restore the state of the phase from a previously saved state vector. More... | |
doublereal | molecularWeight (size_t k) const |
Molecular weight of species k . More... | |
void | getMolecularWeights (vector_fp &weights) const |
Copy the vector of molecular weights into vector weights. More... | |
void | getMolecularWeights (doublereal *weights) const |
Copy the vector of molecular weights into array weights. More... | |
const vector_fp & | molecularWeights () const |
Return a const reference to the internal vector of molecular weights. More... | |
doublereal | size (size_t k) const |
This routine returns the size of species k. More... | |
doublereal | charge (size_t k) const |
Dimensionless electrical charge of a single molecule of species k The charge is normalized by the the magnitude of the electron charge. More... | |
doublereal | chargeDensity () const |
Charge density [C/m^3]. More... | |
size_t | nDim () const |
Returns the number of spatial dimensions (1, 2, or 3) More... | |
void | setNDim (size_t ndim) |
Set the number of spatial dimensions (1, 2, or 3). More... | |
virtual void | freezeSpecies () |
Call when finished adding species. More... | |
bool | speciesFrozen () |
True if freezeSpecies has been called. More... | |
virtual bool | ready () const |
int | stateMFNumber () const |
Return the State Mole Fraction Number. More... | |
std::string | id () const |
Return the string id for the phase. More... | |
void | setID (const std::string &id) |
Set the string id for the phase. More... | |
std::string | name () const |
Return the name of the phase. More... | |
void | setName (const std::string &nm) |
Sets the string name for the phase. More... | |
std::string | elementName (size_t m) const |
Name of the element with index m. More... | |
size_t | elementIndex (const std::string &name) const |
Return the index of element named 'name'. More... | |
const std::vector< std::string > & | elementNames () const |
Return a read-only reference to the vector of element names. More... | |
doublereal | atomicWeight (size_t m) const |
Atomic weight of element m. More... | |
doublereal | entropyElement298 (size_t m) const |
Entropy of the element in its standard state at 298 K and 1 bar. More... | |
int | atomicNumber (size_t m) const |
Atomic number of element m. More... | |
int | elementType (size_t m) const |
Return the element constraint type Possible types include: More... | |
int | changeElementType (int m, int elem_type) |
Change the element type of the mth constraint Reassigns an element type. More... | |
const vector_fp & | atomicWeights () const |
Return a read-only reference to the vector of atomic weights. More... | |
size_t | nElements () const |
Number of elements. More... | |
void | checkElementIndex (size_t m) const |
Check that the specified element index is in range Throws an exception if m is greater than nElements()-1. More... | |
void | checkElementArraySize (size_t mm) const |
Check that an array size is at least nElements() Throws an exception if mm is less than nElements(). More... | |
doublereal | nAtoms (size_t k, size_t m) const |
Number of atoms of element m in species k . More... | |
void | getAtoms (size_t k, double *atomArray) const |
Get a vector containing the atomic composition of species k. More... | |
size_t | speciesIndex (const std::string &name) const |
Returns the index of a species named 'name' within the Phase object. More... | |
std::string | speciesName (size_t k) const |
Name of the species with index k. More... | |
std::string | speciesSPName (int k) const |
Returns the expanded species name of a species, including the phase name This is guaranteed to be unique within a Cantera problem. More... | |
const std::vector< std::string > & | speciesNames () const |
Return a const reference to the vector of species names. More... | |
size_t | nSpecies () const |
Returns the number of species in the phase. More... | |
void | checkSpeciesIndex (size_t k) const |
Check that the specified species index is in range Throws an exception if k is greater than nSpecies()-1. More... | |
void | checkSpeciesArraySize (size_t kk) const |
Check that an array size is at least nSpecies() Throws an exception if kk is less than nSpecies(). More... | |
void | setMoleFractionsByName (compositionMap &xMap) |
Set the species mole fractions by name. More... | |
void | setMoleFractionsByName (const std::string &x) |
Set the mole fractions of a group of species by name. More... | |
void | setMassFractionsByName (compositionMap &yMap) |
Set the species mass fractions by name. More... | |
void | setMassFractionsByName (const std::string &x) |
Set the species mass fractions by name. More... | |
void | setState_TRX (doublereal t, doublereal dens, const doublereal *x) |
Set the internally stored temperature (K), density, and mole fractions. More... | |
void | setState_TRX (doublereal t, doublereal dens, compositionMap &x) |
Set the internally stored temperature (K), density, and mole fractions. More... | |
void | setState_TRY (doublereal t, doublereal dens, const doublereal *y) |
Set the internally stored temperature (K), density, and mass fractions. More... | |
void | setState_TRY (doublereal t, doublereal dens, compositionMap &y) |
Set the internally stored temperature (K), density, and mass fractions. More... | |
void | setState_TNX (doublereal t, doublereal n, const doublereal *x) |
Set the internally stored temperature (K), molar density (kmol/m^3), and mole fractions. More... | |
void | setState_TR (doublereal t, doublereal rho) |
Set the internally stored temperature (K) and density (kg/m^3) More... | |
void | setState_TX (doublereal t, doublereal *x) |
Set the internally stored temperature (K) and mole fractions. More... | |
void | setState_TY (doublereal t, doublereal *y) |
Set the internally stored temperature (K) and mass fractions. More... | |
void | setState_RX (doublereal rho, doublereal *x) |
Set the density (kg/m^3) and mole fractions. More... | |
void | setState_RY (doublereal rho, doublereal *y) |
Set the density (kg/m^3) and mass fractions. More... | |
void | getMoleFractionsByName (compositionMap &x) const |
Get the mole fractions by name. More... | |
doublereal | moleFraction (size_t k) const |
Return the mole fraction of a single species. More... | |
doublereal | moleFraction (const std::string &name) const |
Return the mole fraction of a single species. More... | |
doublereal | massFraction (size_t k) const |
Return the mass fraction of a single species. More... | |
doublereal | massFraction (const std::string &name) const |
Return the mass fraction of a single species. More... | |
void | getMoleFractions (doublereal *const x) const |
Get the species mole fraction vector. More... | |
virtual void | setMoleFractions (const doublereal *const x) |
Set the mole fractions to the specified values There is no restriction on the sum of the mole fraction vector. More... | |
virtual void | setMoleFractions_NoNorm (const doublereal *const x) |
Set the mole fractions to the specified values without normalizing. More... | |
void | getMassFractions (doublereal *const y) const |
Get the species mass fractions. More... | |
const doublereal * | massFractions () const |
Return a const pointer to the mass fraction array. More... | |
virtual void | setMassFractions (const doublereal *const y) |
Set the mass fractions to the specified values and normalize them. More... | |
virtual void | setMassFractions_NoNorm (const doublereal *const y) |
Set the mass fractions to the specified values without normalizing. More... | |
void | getConcentrations (doublereal *const c) const |
Get the species concentrations (kmol/m^3). More... | |
doublereal | concentration (const size_t k) const |
Concentration of species k. More... | |
virtual void | setConcentrations (const doublereal *const conc) |
Set the concentrations to the specified values within the phase. More... | |
const doublereal * | moleFractdivMMW () const |
Returns a const pointer to the start of the moleFraction/MW array. More... | |
doublereal | temperature () const |
Temperature (K). More... | |
virtual doublereal | density () const |
Density (kg/m^3). More... | |
doublereal | molarDensity () const |
Molar density (kmol/m^3). More... | |
doublereal | molarVolume () const |
Molar volume (m^3/kmol). More... | |
virtual void | setDensity (const doublereal density_) |
Set the internally stored density (kg/m^3) of the phase Note the density of a phase is an independent variable. More... | |
virtual void | setMolarDensity (const doublereal molarDensity) |
Set the internally stored molar density (kmol/m^3) of the phase. More... | |
doublereal | mean_X (const doublereal *const Q) const |
Evaluate the mole-fraction-weighted mean of an array Q. More... | |
doublereal | mean_Y (const doublereal *const Q) const |
Evaluate the mass-fraction-weighted mean of an array Q. More... | |
doublereal | meanMolecularWeight () const |
The mean molecular weight. Units: (kg/kmol) More... | |
doublereal | sum_xlogx () const |
Evaluate \( \sum_k X_k \log X_k \). More... | |
doublereal | sum_xlogQ (doublereal *const Q) const |
Evaluate \( \sum_k X_k \log Q_k \). More... | |
void | addElement (const std::string &symbol, doublereal weight=-12345.0) |
Add an element. More... | |
void | addElement (const XML_Node &e) |
Add an element from an XML specification. More... | |
void | addUniqueElement (const std::string &symbol, doublereal weight=-12345.0, int atomicNumber=0, doublereal entropy298=ENTROPY298_UNKNOWN, int elem_type=CT_ELEM_TYPE_ABSPOS) |
Add an element, checking for uniqueness The uniqueness is checked by comparing the string symbol. More... | |
void | addUniqueElement (const XML_Node &e) |
Add an element, checking for uniqueness The uniqueness is checked by comparing the string symbol. More... | |
void | addElementsFromXML (const XML_Node &phase) |
Add all elements referenced in an XML_Node tree. More... | |
void | freezeElements () |
Prohibit addition of more elements, and prepare to add species. More... | |
bool | elementsFrozen () |
True if freezeElements has been called. More... | |
size_t | addUniqueElementAfterFreeze (const std::string &symbol, doublereal weight, int atomicNumber, doublereal entropy298=ENTROPY298_UNKNOWN, int elem_type=CT_ELEM_TYPE_ABSPOS) |
Add an element after elements have been frozen, checking for uniqueness The uniqueness is checked by comparing the string symbol. More... | |
void | addSpecies (const std::string &name, const doublereal *comp, doublereal charge=0.0, doublereal size=1.0) |
void | addUniqueSpecies (const std::string &name, const doublereal *comp, doublereal charge=0.0, doublereal size=1.0) |
Add a species to the phase, checking for uniqueness of the name This routine checks for uniqueness of the string name. More... | |
Protected Member Functions inherited from ThermoPhase | |
virtual void | getCsvReportData (std::vector< std::string > &names, std::vector< vector_fp > &data) const |
Fills names and data with the column names and species thermo properties to be included in the output of the reportCSV method. More... | |
Protected Member Functions inherited from Phase | |
void | init (const vector_fp &mw) |
void | setMolecularWeight (const int k, const double mw) |
Set the molecular weight of a single species to a given value. More... | |
This is a filter class for ThermoPhase that implements some prepatory steps for efficiently handling a variable pressure standard state for species.
Several concepts are introduced. The first concept is there are temporary variables for holding the species standard state values of Cp, H, S, G, and V at the last temperature and pressure called. These functions are not recalculated if a new call is made using the previous temperature and pressure. Currently, these variables and the calculation method are handled by the VPSSMgr class, for which VPStandardStateTP owns a pointer to.
To support the above functionality, pressure and temperature variables, m_Plast_ss and m_Tlast_ss, are kept which store the last pressure and temperature used in the evaluation of standard state properties.
This class is usually used for nearly incompressible phases. For those phases, it makes sense to change the equation of state independent variable from density to pressure. The variable m_Pcurrent contains the current value of the pressure within the phase.
Definition at line 59 of file VPStandardStateTP.h.
Constructor.
Definition at line 27 of file VPStandardStateTP.cpp.
Referenced by VPStandardStateTP::duplMyselfAsThermoPhase().
VPStandardStateTP | ( | const VPStandardStateTP & | b | ) |
Copy Constructor.
b | Object to be copied |
Definition at line 37 of file VPStandardStateTP.cpp.
References VPStandardStateTP::operator=().
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Destructor.
Definition at line 114 of file VPStandardStateTP.cpp.
References VPStandardStateTP::m_PDSS_storage, and VPStandardStateTP::m_VPSS_ptr.
VPStandardStateTP & operator= | ( | const VPStandardStateTP & | b | ) |
Assignment operator.
b | Object to be copied |
Definition at line 49 of file VPStandardStateTP.cpp.
References PDSS::duplMyselfAsPDSS(), PDSS::initAllPtrs(), VPSSMgr::initAllPtrs(), Phase::m_kk, VPStandardStateTP::m_P0, VPStandardStateTP::m_Pcurrent, VPStandardStateTP::m_PDSS_storage, VPStandardStateTP::m_Plast_ss, ThermoPhase::m_spthermo, VPStandardStateTP::m_Tlast_ss, VPStandardStateTP::m_VPSS_ptr, ThermoPhase::operator=(), and VPSSMgr::setState_TP().
Referenced by IdealSolnGasVPSS::operator=(), GibbsExcessVPSSTP::operator=(), MolalityVPSSTP::operator=(), and VPStandardStateTP::VPStandardStateTP().
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Duplication routine.
Reimplemented from ThermoPhase.
Reimplemented in HMWSoln, DebyeHuckel, PhaseCombo_Interaction, MargulesVPSSTP, MixedSolventElectrolyte, RedlichKisterVPSSTP, MolalityVPSSTP, IonsFromNeutralVPSSTP, IdealMolalSoln, GibbsExcessVPSSTP, MolarityIonicVPSSTP, PseudoBinaryVPSSTP, and IdealSolnGasVPSS.
Definition at line 122 of file VPStandardStateTP.cpp.
References VPStandardStateTP::VPStandardStateTP().
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Equation of state type flag.
The base class returns zero. Subclasses should define this to return a unique non-zero value. Constants defined for this purpose are listed in mix_defs.h.
Reimplemented from ThermoPhase.
Reimplemented in HMWSoln, DebyeHuckel, PhaseCombo_Interaction, MargulesVPSSTP, MixedSolventElectrolyte, RedlichKisterVPSSTP, MolalityVPSSTP, IonsFromNeutralVPSSTP, IdealMolalSoln, GibbsExcessVPSSTP, MolarityIonicVPSSTP, PseudoBinaryVPSSTP, and IdealSolnGasVPSS.
Definition at line 95 of file VPStandardStateTP.h.
Referenced by VPStandardStateTP::err(), and VPSSMgrFactory::newVPSSMgr().
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This method returns the convention used in specification of the standard state, of which there are currently two, temperature based, and variable pressure based.
Currently, there are two standard state conventions:
cSS_CONVENTION_TEMPERATURE 0
(default)cSS_CONVENTION_VPSS 1
Reimplemented from ThermoPhase.
Definition at line 127 of file VPStandardStateTP.cpp.
References Cantera::cSS_CONVENTION_VPSS.
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Get the array of log concentration-like derivatives of the log activity coefficients.
This function is a virtual method. For ideal mixtures (unity activity coefficients), this can return zero. Implementations should take the derivative of the logarithm of the activity coefficient with respect to the logarithm of the concentration-like variable (i.e. moles) that represents the standard state. This quantity is to be used in conjunction with derivatives of that concentration-like variable when the derivative of the chemical potential is taken.
units = dimensionless
dlnActCoeffdlnN_diag | Output vector of derivatives of the log Activity Coefficients. length = m_kk |
Reimplemented from ThermoPhase.
Reimplemented in PhaseCombo_Interaction, MargulesVPSSTP, MixedSolventElectrolyte, RedlichKisterVPSSTP, and IonsFromNeutralVPSSTP.
Definition at line 129 of file VPStandardStateTP.h.
References VPStandardStateTP::err().
Referenced by IonsFromNeutralVPSSTP::s_update_dlnActCoeff_dlnN_diag().
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Get the array of non-dimensional species chemical potentials.
These are partial molar Gibbs free energies, \( \mu_k / \hat R T \).
We close the loop on this function, here, calling getChemPotentials() and then dividing by RT. No need for child classes to handle.
mu | Output vector of non-dimensional species chemical potentials Length: m_kk. |
Reimplemented from ThermoPhase.
Definition at line 139 of file VPStandardStateTP.cpp.
References ThermoPhase::_RT(), ThermoPhase::getChemPotentials(), and Phase::m_kk.
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Get the array of chemical potentials at unit activity.
These are the standard state chemical potentials \( \mu^0_k(T,P) \). The values are evaluated at the current temperature and pressure.
mu | Output vector of standard state chemical potentials. length = m_kk. units are J / kmol. |
Reimplemented from ThermoPhase.
Definition at line 151 of file VPStandardStateTP.cpp.
References ThermoPhase::_RT(), VPStandardStateTP::getGibbs_RT(), and Phase::m_kk.
Referenced by MolarityIonicVPSSTP::getChemPotentials(), IdealSolnGasVPSS::getChemPotentials(), RedlichKisterVPSSTP::getChemPotentials(), MixedSolventElectrolyte::getChemPotentials(), MargulesVPSSTP::getChemPotentials(), PhaseCombo_Interaction::getChemPotentials(), IdealMolalSoln::getChemPotentials(), DebyeHuckel::getChemPotentials(), HMWSoln::getChemPotentials(), MolalityVPSSTP::getCsvReportData(), PseudoBinaryVPSSTP::report(), MolarityIonicVPSSTP::report(), and MolalityVPSSTP::report().
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Get the nondimensional Enthalpy functions for the species at their standard states at the current T and P of the solution.
hrt | Output vector of standard state enthalpies. length = m_kk. units are unitless. |
Reimplemented from ThermoPhase.
Definition at line 161 of file VPStandardStateTP.cpp.
References VPSSMgr::getEnthalpy_RT(), VPStandardStateTP::m_VPSS_ptr, and VPStandardStateTP::updateStandardStateThermo().
Referenced by MolarityIonicVPSSTP::getPartialMolarEnthalpies(), IdealSolnGasVPSS::getPartialMolarEnthalpies(), IonsFromNeutralVPSSTP::getPartialMolarEnthalpies(), RedlichKisterVPSSTP::getPartialMolarEnthalpies(), MixedSolventElectrolyte::getPartialMolarEnthalpies(), MargulesVPSSTP::getPartialMolarEnthalpies(), PhaseCombo_Interaction::getPartialMolarEnthalpies(), IdealMolalSoln::getPartialMolarEnthalpies(), DebyeHuckel::getPartialMolarEnthalpies(), HMWSoln::getPartialMolarEnthalpies(), and HMWSoln::relative_enthalpy().
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Get the array of nondimensional Enthalpy functions for the standard state species at the current T and P of the solution.
sr | Output vector of nondimensional standard state entropies. length = m_kk. |
Reimplemented from ThermoPhase.
Definition at line 176 of file VPStandardStateTP.cpp.
References VPSSMgr::getEntropy_R(), VPStandardStateTP::m_VPSS_ptr, and VPStandardStateTP::updateStandardStateThermo().
Referenced by MolarityIonicVPSSTP::getPartialMolarEntropies(), IdealSolnGasVPSS::getPartialMolarEntropies(), IonsFromNeutralVPSSTP::getPartialMolarEntropies(), RedlichKisterVPSSTP::getPartialMolarEntropies(), MixedSolventElectrolyte::getPartialMolarEntropies(), MargulesVPSSTP::getPartialMolarEntropies(), PhaseCombo_Interaction::getPartialMolarEntropies(), IdealMolalSoln::getPartialMolarEntropies(), DebyeHuckel::getPartialMolarEntropies(), and HMWSoln::getPartialMolarEntropies().
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Get the nondimensional Gibbs functions for the species at their standard states of solution at the current T and P of the solution.
grt | Output vector of nondimensional standard state Gibbs free energies. length = m_kk. |
Reimplemented from ThermoPhase.
Definition at line 183 of file VPStandardStateTP.cpp.
References VPSSMgr::getGibbs_RT(), VPStandardStateTP::m_VPSS_ptr, and VPStandardStateTP::updateStandardStateThermo().
Referenced by VPStandardStateTP::getStandardChemPotentials().
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Get the standard state Gibbs functions for each species at the current T and P.
(Note resolved at this level)
gpure | Output vector of standard state Gibbs free energies. length = m_kk. units are J/kmol. |
Reimplemented from ThermoPhase.
Definition at line 190 of file VPStandardStateTP.cpp.
References VPSSMgr::getStandardChemPotentials(), VPStandardStateTP::m_VPSS_ptr, and VPStandardStateTP::updateStandardStateThermo().
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Returns the vector of nondimensional internal Energies of the standard state at the current temperature and pressure of the solution for each species.
\[ u^{ss}_k(T,P) = h^{ss}_k(T) - P * V^{ss}_k \]
urt | Output vector of nondimensional standard state internal energies. length = m_kk. |
Reimplemented from ThermoPhase.
Definition at line 196 of file VPStandardStateTP.cpp.
References VPSSMgr::getIntEnergy_RT(), VPStandardStateTP::m_VPSS_ptr, and VPStandardStateTP::updateStandardStateThermo().
Referenced by IdealSolnGasVPSS::getPartialMolarIntEnergies().
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Get the nondimensional Heat Capacities at constant pressure for the standard state of the species at the current T and P.
This is redefined here to call the internal function, _updateStandardStateThermo(), which calculates all standard state properties at the same time.
cpr | Output vector containing the the nondimensional Heat Capacities at constant pressure for the standard state of the species. Length: m_kk. |
Reimplemented from ThermoPhase.
Definition at line 202 of file VPStandardStateTP.cpp.
References VPSSMgr::getCp_R(), VPStandardStateTP::m_VPSS_ptr, and VPStandardStateTP::updateStandardStateThermo().
Referenced by MolarityIonicVPSSTP::getPartialMolarCp(), IdealSolnGasVPSS::getPartialMolarCp(), RedlichKisterVPSSTP::getPartialMolarCp(), MixedSolventElectrolyte::getPartialMolarCp(), MargulesVPSSTP::getPartialMolarCp(), PhaseCombo_Interaction::getPartialMolarCp(), IdealMolalSoln::getPartialMolarCp(), DebyeHuckel::getPartialMolarCp(), and HMWSoln::getPartialMolarCp().
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Get the molar volumes of each species in their standard states at the current T and P of the solution.
units = m^3 / kmol
This is redefined here to call the internal function, _updateStandardStateThermo(), which calculates all standard state properties at the same time.
vol | Output vector of species volumes. length = m_kk. units = m^3 / kmol |
Reimplemented from ThermoPhase.
Definition at line 208 of file VPStandardStateTP.cpp.
References VPSSMgr::getStandardVolumes(), VPStandardStateTP::m_VPSS_ptr, and VPStandardStateTP::updateStandardStateThermo().
Referenced by MolarityIonicVPSSTP::getPartialMolarVolumes(), IdealSolnGasVPSS::getPartialMolarVolumes(), GibbsExcessVPSSTP::getPartialMolarVolumes(), RedlichKisterVPSSTP::getPartialMolarVolumes(), MixedSolventElectrolyte::getPartialMolarVolumes(), MargulesVPSSTP::getPartialMolarVolumes(), PhaseCombo_Interaction::getPartialMolarVolumes(), IdealMolalSoln::getPartialMolarVolumes(), DebyeHuckel::getPartialMolarVolumes(), HMWSoln::getPartialMolarVolumes(), and HMWSoln::standardConcentration().
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Set the temperature of the phase.
Currently this passes down to setState_TP(). It does not make sense to calculate the standard state without first setting T and P.
temp | Temperature (kelvin) |
Reimplemented from Phase.
Reimplemented in HMWSoln, DebyeHuckel, and IonsFromNeutralVPSSTP.
Definition at line 294 of file VPStandardStateTP.cpp.
References VPStandardStateTP::m_Pcurrent, VPStandardStateTP::setState_TP(), and VPStandardStateTP::updateStandardStateThermo().
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Set the internally stored pressure (Pa) at constant temperature and composition.
Currently this passes down to setState_TP(). It does not make sense to calculate the standard state without first setting T and P.
p | input Pressure (Pa) |
Reimplemented from ThermoPhase.
Reimplemented in HMWSoln, DebyeHuckel, IonsFromNeutralVPSSTP, IdealMolalSoln, GibbsExcessVPSSTP, and IdealSolnGasVPSS.
Definition at line 300 of file VPStandardStateTP.cpp.
References VPStandardStateTP::setState_TP(), Phase::temperature(), and VPStandardStateTP::updateStandardStateThermo().
Referenced by MolalityVPSSTP::setStateFromXML().
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Calculate the density of the mixture using the partial molar volumes and mole fractions as input.
The formula for this is
\[ \rho = \frac{\sum_k{X_k W_k}}{\sum_k{X_k V_k}} \]
where \(X_k\) are the mole fractions, \(W_k\) are the molecular weights, and \(V_k\) are the pure species molar volumes.
Note, the basis behind this formula is that in an ideal solution the partial molar volumes are equal to the pure species molar volumes. We have additionally specified in this class that the pure species molar volumes are independent of temperature and pressure.
NOTE: This is a non-virtual function, which is not a member of the ThermoPhase base class.
Reimplemented in HMWSoln, DebyeHuckel, IdealMolalSoln, GibbsExcessVPSSTP, and IdealSolnGasVPSS.
Definition at line 306 of file VPStandardStateTP.cpp.
References VPStandardStateTP::err().
Referenced by VPStandardStateTP::setState_TP().
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Set the temperature and pressure at the same time.
Note this function triggers a reevaluation of the standard state quantities.
T | temperature (kelvin) |
pres | pressure (pascal) |
Reimplemented from ThermoPhase.
Reimplemented in HMWSoln, DebyeHuckel, IonsFromNeutralVPSSTP, GibbsExcessVPSSTP, and IdealMolalSoln.
Definition at line 312 of file VPStandardStateTP.cpp.
References VPStandardStateTP::calcDensity(), VPStandardStateTP::m_Pcurrent, Phase::setTemperature(), and VPStandardStateTP::updateStandardStateThermo().
Referenced by VPStandardStateTP::setPressure(), IonsFromNeutralVPSSTP::setState_TP(), MolalityVPSSTP::setState_TPM(), and VPStandardStateTP::setTemperature().
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Returns the current pressure of the phase.
The pressure is an independent variable in this phase. Its current value is stored in the object VPStandardStateTP.
Reimplemented from ThermoPhase.
Definition at line 323 of file VPStandardStateTP.h.
References VPStandardStateTP::m_Pcurrent.
Referenced by IdealSolnGasVPSS::intEnergy_mole(), IonsFromNeutralVPSSTP::intEnergy_mole(), PseudoBinaryVPSSTP::report(), MolarityIonicVPSSTP::report(), MolalityVPSSTP::report(), IonsFromNeutralVPSSTP::setTemperature(), and IdealSolnGasVPSS::standardConcentration().
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Updates the standard state thermodynamic functions at the current T and P of the solution.
If m_useTmpStandardStateStorage is true, this function must be called for every call to functions in this class.
This function is responsible for updating the following internal members, when m_useTmpStandardStateStorage is true.
This function doesn't check to see if the temperature or pressure has changed. It automatically assumes that it has changed. If m_useTmpStandardStateStorage is not true, this function may be required to be called by child classes to update internal member data..
Definition at line 388 of file VPStandardStateTP.cpp.
References AssertThrowMsg, VPStandardStateTP::m_Pcurrent, VPStandardStateTP::m_Plast_ss, VPStandardStateTP::m_Tlast_ss, VPStandardStateTP::m_VPSS_ptr, VPSSMgr::setState_TP(), and Phase::temperature().
Referenced by IdealMolalSoln::getActivities(), DebyeHuckel::getActivities(), DebyeHuckel::getMolalityActivityCoefficients(), DebyeHuckel::setState_TP(), and VPStandardStateTP::updateStandardStateThermo().
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Updates the standard state thermodynamic functions at the current T and P of the solution.
If m_useTmpStandardStateStorage is true, this function must be called for every call to functions in this class. It checks to see whether the temperature or pressure has changed and thus the ss thermodynamics functions for all of the species must be recalculated.
This function is responsible for updating the following internal members, when m_useTmpStandardStateStorage is true.
If m_useTmpStandardStateStorage is not true, this function may be required to be called by child classes to update internal member data.
Definition at line 398 of file VPStandardStateTP.cpp.
References VPStandardStateTP::_updateStandardStateThermo(), VPStandardStateTP::m_Pcurrent, VPStandardStateTP::m_Plast_ss, VPStandardStateTP::m_Tlast_ss, and Phase::temperature().
Referenced by IdealSolnGasVPSS::cp_mole(), IdealSolnGasVPSS::enthalpy_mole(), IdealSolnGasVPSS::entropy_mole(), HMWSoln::getActivities(), VPStandardStateTP::getCp_R(), VPStandardStateTP::getCp_R_ref(), VPStandardStateTP::getEnthalpy_RT(), VPStandardStateTP::getEnthalpy_RT_ref(), VPStandardStateTP::getEntropy_R(), VPStandardStateTP::getEntropy_R_ref(), VPStandardStateTP::getGibbs_ref(), VPStandardStateTP::getGibbs_RT(), VPStandardStateTP::getGibbs_RT_ref(), VPStandardStateTP::getIntEnergy_RT(), VPStandardStateTP::getPureGibbs(), VPStandardStateTP::getStandardVolumes(), VPStandardStateTP::getStandardVolumes_ref(), HMWSoln::getUnscaledMolalityActivityCoefficients(), IdealSolnGasVPSS::setPressure(), VPStandardStateTP::setPressure(), IdealMolalSoln::setState_TP(), VPStandardStateTP::setState_TP(), GibbsExcessVPSSTP::setState_TP(), HMWSoln::setState_TP(), VPStandardStateTP::setTemperature(), IdealSolnGasVPSS::setToEquilState(), MolalityVPSSTP::setToEquilState(), and HMWSoln::setToEquilState().
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Returns the vector of nondimensional enthalpies of the reference state at the current temperature of the solution and the reference pressure for the species.
There are also temporary variables for holding the species reference-state values of Cp, H, S, and V at the last temperature and reference pressure called. These functions are not recalculated if a new call is made using the previous temperature. All calculations are done within the routine _updateRefStateThermo().
hrt | Output vector contains the nondimensional enthalpies of the reference state of the species length = m_kk, units = dimensionless. |
Reimplemented from ThermoPhase.
Definition at line 223 of file VPStandardStateTP.cpp.
References VPSSMgr::getEnthalpy_RT_ref(), VPStandardStateTP::m_VPSS_ptr, and VPStandardStateTP::updateStandardStateThermo().
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Returns the vector of nondimensional Gibbs free energies of the reference state at the current temperature of the solution and the reference pressure for the species.
grt | Output vector contains the nondimensional Gibbs free energies of the reference state of the species length = m_kk, units = dimensionless. |
Reimplemented from ThermoPhase.
Definition at line 229 of file VPStandardStateTP.cpp.
References VPSSMgr::getGibbs_RT_ref(), VPStandardStateTP::m_VPSS_ptr, and VPStandardStateTP::updateStandardStateThermo().
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Returns the vector of the gibbs function of the reference state at the current temperature of the solution and the reference pressure for the species. units = J/kmol
g | Output vector contain the Gibbs free energies of the reference state of the species length = m_kk, units = J/kmol. |
Reimplemented from ThermoPhase.
Definition at line 235 of file VPStandardStateTP.cpp.
References VPSSMgr::getGibbs_ref(), VPStandardStateTP::m_VPSS_ptr, and VPStandardStateTP::updateStandardStateThermo().
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Returns the vector of nondimensional entropies of the reference state at the current temperature of the solution and the reference pressure for the species.
er | Output vector contain the nondimensional entropies of the species in their reference states length: m_kk, units: dimensionless. |
Reimplemented from ThermoPhase.
Definition at line 247 of file VPStandardStateTP.cpp.
References VPSSMgr::getEntropy_R_ref(), VPStandardStateTP::m_VPSS_ptr, and VPStandardStateTP::updateStandardStateThermo().
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Returns the vector of nondimensional constant pressure heat capacities of the reference state at the current temperature of the solution and reference pressure for the species.
cprt | Output vector contains the nondimensional heat capacities of the species in their reference states length: m_kk, units: dimensionless. |
Reimplemented from ThermoPhase.
Definition at line 253 of file VPStandardStateTP.cpp.
References VPSSMgr::getCp_R_ref(), VPStandardStateTP::m_VPSS_ptr, and VPStandardStateTP::updateStandardStateThermo().
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Get the molar volumes of the species reference states at the current T and P_ref of the solution.
units = m^3 / kmol
vol | Output vector containing the standard state volumes. Length: m_kk. |
Reimplemented from ThermoPhase.
Definition at line 259 of file VPStandardStateTP.cpp.
References VPSSMgr::getStandardVolumes_ref(), VPStandardStateTP::m_VPSS_ptr, and VPStandardStateTP::updateStandardStateThermo().
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Set equation of state parameter values from XML entries.
The following methods are used in the process of constructing the phase and setting its parameters from a specification in an input file. They are not normally used in application programs. To see how they are used, see files importCTML.cpp and ThermoFactory.cpp. This method is called by function importPhase in file importCTML.cpp when processing a phase definition in an input file. It should be overloaded in subclasses to set any parameters that are specific to that particular phase model.
eosdata | An XML_Node object corresponding to the "thermo" entry for this phase in the input file. |
Reimplemented from ThermoPhase.
Reimplemented in HMWSoln, DebyeHuckel, IdealMolalSoln, and IdealSolnGasVPSS.
Definition at line 495 of file VPStandardStateTP.h.
Referenced by IdealSolnGasVPSS::setParametersFromXML().
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Initialize the ThermoPhase object after all species have been set up.
Initialize.
This method is provided to allow subclasses to perform any initialization required after all species have been added. For example, it might be used to resize internal work arrays that must have an entry for each species. The base class implementation does nothing, and subclasses that do not require initialization do not need to overload this method. When importing a CTML phase description, this method is called from ThermoPhase::initThermoXML(), which is called from importPhase(), just prior to returning from function importPhase().
Reimplemented from ThermoPhase.
Reimplemented in HMWSoln, DebyeHuckel, IdealMolalSoln, MolalityVPSSTP, PhaseCombo_Interaction, IonsFromNeutralVPSSTP, MargulesVPSSTP, MixedSolventElectrolyte, RedlichKisterVPSSTP, GibbsExcessVPSSTP, IdealSolnGasVPSS, MolarityIonicVPSSTP, and PseudoBinaryVPSSTP.
Definition at line 265 of file VPStandardStateTP.cpp.
References VPStandardStateTP::initLengths(), PDSS::initThermo(), VPSSMgr::initThermo(), ThermoPhase::initThermo(), Phase::m_kk, VPStandardStateTP::m_PDSS_storage, and VPStandardStateTP::m_VPSS_ptr.
Referenced by IdealSolnGasVPSS::initThermo(), GibbsExcessVPSSTP::initThermo(), and MolalityVPSSTP::initThermo().
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Initialize a ThermoPhase object, potentially reading activity coefficient information from an XML database.
This routine initializes the lengths in the current object and then calls the parent routine. This method is provided to allow subclasses to perform any initialization required after all species have been added. For example, it might be used to resize internal work arrays that must have an entry for each species. The base class implementation does nothing, and subclasses that do not require initialization do not need to overload this method. When importing a CTML phase description, this method is called just prior to returning from function importPhase().
phaseNode | This object must be the phase node of a complete XML tree description of the phase, including all of the species data. In other words while "phase" must point to an XML phase object, it must have sibling nodes "speciesData" that describe the species in the phase. |
id | ID of the phase. If nonnull, a check is done to see if phaseNode is pointing to the phase with the correct id. |
Reimplemented from ThermoPhase.
Reimplemented in HMWSoln, DebyeHuckel, IdealMolalSoln, MolalityVPSSTP, PhaseCombo_Interaction, IonsFromNeutralVPSSTP, MargulesVPSSTP, MixedSolventElectrolyte, RedlichKisterVPSSTP, IdealSolnGasVPSS, MolarityIonicVPSSTP, and PseudoBinaryVPSSTP.
Definition at line 364 of file VPStandardStateTP.cpp.
References AssertTrace, VPStandardStateTP::initLengths(), PDSS::initThermoXML(), VPSSMgr::initThermoXML(), ThermoPhase::initThermoXML(), Phase::m_kk, VPStandardStateTP::m_PDSS_storage, and VPStandardStateTP::m_VPSS_ptr.
Referenced by PseudoBinaryVPSSTP::initThermoXML(), MolarityIonicVPSSTP::initThermoXML(), IdealSolnGasVPSS::initThermoXML(), RedlichKisterVPSSTP::initThermoXML(), MargulesVPSSTP::initThermoXML(), IonsFromNeutralVPSSTP::initThermoXML(), PhaseCombo_Interaction::initThermoXML(), and MolalityVPSSTP::initThermoXML().
void setVPSSMgr | ( | VPSSMgr * | vp_ptr | ) |
set the VPSS Mgr
vp_ptr | Pointer to the manager |
Definition at line 278 of file VPStandardStateTP.cpp.
References VPStandardStateTP::m_VPSS_ptr.
Referenced by Cantera::importPhase().
VPSSMgr * provideVPSSMgr | ( | ) |
Return a pointer to the VPSSMgr for this phase.
Definition at line 383 of file VPStandardStateTP.cpp.
References VPStandardStateTP::m_VPSS_ptr.
Referenced by PDSS::initThermo(), and PDSS::PDSS().
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private |
Initialize the internal lengths in this object.
Note this is not a virtual function.
Definition at line 287 of file VPStandardStateTP.cpp.
References Phase::m_kk, and Phase::nSpecies().
Referenced by VPStandardStateTP::initThermo(), and VPStandardStateTP::initThermoXML().
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private |
VPStandardStateTP has its own err routine.
msg | Error message string |
Definition at line 132 of file VPStandardStateTP.cpp.
References VPStandardStateTP::eosType(), and Cantera::int2str().
Referenced by VPStandardStateTP::calcDensity(), and VPStandardStateTP::getdlnActCoeffdlnN_diag().
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Current value of the pressure - state variable.
Because we are now using the pressure as a state variable, we need to carry it along within this object
units = Pascals
Definition at line 563 of file VPStandardStateTP.h.
Referenced by VPStandardStateTP::_updateStandardStateThermo(), IdealSolnGasVPSS::calcDensity(), IdealSolnGasVPSS::isothermalCompressibility(), VPStandardStateTP::operator=(), VPStandardStateTP::pressure(), DebyeHuckel::pressure(), HMWSoln::pressure(), IdealSolnGasVPSS::setPressure(), IdealMolalSoln::setState_TP(), VPStandardStateTP::setState_TP(), GibbsExcessVPSSTP::setState_TP(), DebyeHuckel::setState_TP(), HMWSoln::setState_TP(), VPStandardStateTP::setTemperature(), DebyeHuckel::setTemperature(), HMWSoln::setTemperature(), and VPStandardStateTP::updateStandardStateThermo().
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mutableprotected |
The last temperature at which the standard statethermodynamic properties were calculated at.
Definition at line 566 of file VPStandardStateTP.h.
Referenced by VPStandardStateTP::_updateStandardStateThermo(), VPStandardStateTP::operator=(), and VPStandardStateTP::updateStandardStateThermo().
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mutableprotected |
The last pressure at which the Standard State thermodynamic properties were calculated at.
Definition at line 570 of file VPStandardStateTP.h.
Referenced by VPStandardStateTP::_updateStandardStateThermo(), VPStandardStateTP::operator=(), and VPStandardStateTP::updateStandardStateThermo().
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Reference pressure (Pa) must be the same for all species
Definition at line 576 of file VPStandardStateTP.h.
Referenced by VPStandardStateTP::operator=().
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mutableprotected |
Pointer to the VPSS manager that calculates all of the standard state info efficiently.
Definition at line 583 of file VPStandardStateTP.h.
Referenced by VPStandardStateTP::_updateStandardStateThermo(), IdealSolnGasVPSS::calcDensity(), IdealSolnGasVPSS::cp_mole(), IdealSolnGasVPSS::enthalpy_mole(), IdealSolnGasVPSS::entropy_mole(), IdealSolnGasVPSS::getActivityConcentrations(), VPStandardStateTP::getCp_R(), VPStandardStateTP::getCp_R_ref(), VPStandardStateTP::getEnthalpy_RT(), VPStandardStateTP::getEnthalpy_RT_ref(), VPStandardStateTP::getEntropy_R(), VPStandardStateTP::getEntropy_R_ref(), VPStandardStateTP::getGibbs_ref(), VPStandardStateTP::getGibbs_RT(), VPStandardStateTP::getGibbs_RT_ref(), VPStandardStateTP::getIntEnergy_RT(), VPStandardStateTP::getPureGibbs(), VPStandardStateTP::getStandardVolumes(), VPStandardStateTP::getStandardVolumes_ref(), VPStandardStateTP::initThermo(), VPStandardStateTP::initThermoXML(), VPStandardStateTP::operator=(), VPStandardStateTP::provideVPSSMgr(), IdealSolnGasVPSS::setToEquilState(), VPStandardStateTP::setVPSSMgr(), IdealSolnGasVPSS::standardConcentration(), and VPStandardStateTP::~VPStandardStateTP().
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Storage for the PDSS objects for the species.
Storage is in species index order. VPStandardStateTp owns each of the objects. Copy operations are deep.
Definition at line 591 of file VPStandardStateTP.h.
Referenced by VPStandardStateTP::initThermo(), VPStandardStateTP::initThermoXML(), VPStandardStateTP::operator=(), and VPStandardStateTP::~VPStandardStateTP().