Class for pressure dependent standard states that uses a standard state volume model of some sort. More...
#include <PDSS_SSVol.h>
Public Member Functions | |
Constructors | |
| PDSS_SSVol (VPStandardStateTP *tp, size_t spindex) | |
| Constructor. More... | |
| PDSS_SSVol (VPStandardStateTP *tp, size_t spindex, const std::string &inputFile, const std::string &id="") | |
| Constructor that initializes the object by examining the input file of the ThermoPhase object. More... | |
| PDSS_SSVol (VPStandardStateTP *vptp_ptr, size_t spindex, const XML_Node &speciesNode, const XML_Node &phaseRef, bool spInstalled) | |
| Constructor that initializes the object by examining the input file of the ThermoPhase object. More... | |
| PDSS_SSVol (const PDSS_SSVol &b) | |
| Copy Constructur. More... | |
| PDSS_SSVol & | operator= (const PDSS_SSVol &b) |
| Assignment operator. More... | |
| virtual PDSS * | duplMyselfAsPDSS () const |
| Duplication routine for objects which inherit from PDSS. More... | |
Molar Thermodynamic Properties of the Species Standard State in the Solution | |
| virtual doublereal | enthalpy_mole () const |
| Return the molar enthalpy in units of J kmol-1. More... | |
| virtual doublereal | enthalpy_RT () const |
| Return the standard state molar enthalpy divided by RT. More... | |
| virtual doublereal | intEnergy_mole () const |
| Return the molar internal Energy in units of J kmol-1. More... | |
| virtual doublereal | entropy_mole () const |
| Return the molar entropy in units of J kmol-1 K-1. More... | |
| virtual doublereal | entropy_R () const |
| Return the standard state entropy divided by RT. More... | |
| virtual doublereal | gibbs_mole () const |
| Return the molar Gibbs free energy in units of J kmol-1. More... | |
| virtual doublereal | gibbs_RT () const |
| Return the molar Gibbs free energy divided by RT. More... | |
| virtual doublereal | cp_mole () const |
| Return the molar const pressure heat capacity in units of J kmol-1 K-1. More... | |
| virtual doublereal | cp_R () const |
| Return the molar const pressure heat capacity divided by RT. More... | |
| virtual doublereal | cv_mole () const |
| Return the molar const volume heat capacity in units of J kmol-1 K-1. More... | |
| virtual doublereal | molarVolume () const |
| Return the molar volume at standard state. More... | |
| virtual doublereal | density () const |
| Return the standard state density at standard state. More... | |
 Public Member Functions inherited from PDSS | |
| PDSS () | |
| Empty Constructor. More... | |
| PDSS (VPStandardStateTP *tp, size_t spindex) | |
| Constructor that initializes the object by examining the XML entries from the ThermoPhase object. More... | |
| PDSS (const PDSS &b) | |
| Copy Constructor. More... | |
| PDSS & | operator= (const PDSS &b) |
| Assignment operator. More... | |
| virtual | ~PDSS () |
| Destructor for the phase. More... | |
| virtual doublereal | enthalpyDelp_mole () const |
| Get the difference in the standard state enthalpy between the current pressure and the reference pressure, p0. More... | |
| virtual doublereal | entropyDelp_mole () const |
| Get the difference in the standard state entropy between the current pressure and the reference pressure, p0. More... | |
| virtual doublereal | gibbsDelp_mole () const |
| Get the difference in the standard state gibbs free energy between the current pressure and the reference pressure, p0. More... | |
| virtual doublereal | cpDelp_mole () const |
| Get the difference in standard state heat capacity between the current pressure and the reference pressure, p0. More... | |
| doublereal | refPressure () const |
| Return the reference pressure for this phase. More... | |
| doublereal | minTemp () const |
| return the minimum temperature More... | |
| doublereal | maxTemp () const |
| return the minimum temperature More... | |
| virtual doublereal | pressure () const |
| Returns the pressure (Pa) More... | |
| virtual doublereal | thermalExpansionCoeff () const |
| Return the volumetric thermal expansion coefficient. Units: 1/K. More... | |
| doublereal | temperature () const |
| Return the current stored temperature. More... | |
| doublereal | molecularWeight () const |
| Return the molecular weight of the species in units of kg kmol-1. More... | |
| void | setMolecularWeight (doublereal mw) |
| Set the molecular weight of the species. More... | |
| PDSS_enumType | reportPDSSType () const |
| Returns the type of the standard state parameterization. More... | |
| virtual void | reportParams (size_t &kindex, int &type, doublereal *const c, doublereal &minTemp, doublereal &maxTemp, doublereal &refPressure) const |
| This utility function reports back the type of parameterization and all of the parameters for the species, index. More... | |
| virtual void | initAllPtrs (VPStandardStateTP *vptp_ptr, VPSSMgr *vpssmgr_ptr, SpeciesThermo *spthermo_ptr) |
| Initialize or Reinitialize all shallow pointers in the object. More... | |
Private Member Functions | |
Mechanical Equation of State Properties | |
| virtual void | setPressure (doublereal pres) |
| Sets the pressure in the object. More... | |
| virtual void | setTemperature (doublereal temp) |
| Set the internal temperature. More... | |
| virtual void | setState_TP (doublereal temp, doublereal pres) |
| Set the internal temperature and pressure. More... | |
| virtual void | setState_TR (doublereal temp, doublereal rho) |
| Set the internal temperature and density. More... | |
Miscellaneous properties of the standard state | |
| virtual doublereal | critTemperature () const |
| critical temperature More... | |
| virtual doublereal | critPressure () const |
| critical pressure More... | |
| virtual doublereal | critDensity () const |
| critical density More... | |
| virtual doublereal | satPressure (doublereal t) |
| saturation pressure More... | |
Initialization of the Object | |
| virtual void | initThermo () |
| Initialization routine for all of the shallow pointers. More... | |
| void | constructPDSSFile (VPStandardStateTP *vptp_ptr, size_t spindex, const std::string &inputFile, const std::string &id) |
| Initialization of a PDSS object using an input XML file. More... | |
| void | constructPDSSXML (VPStandardStateTP *vptp_ptr, size_t spindex, const XML_Node &speciesNode, const XML_Node &phaseNode, bool spInstalled) |
| Initialization of a PDSS object using an xml tree. More... | |
| virtual void | initThermoXML (const XML_Node &phaseNode, const std::string &id) |
| Initialization routine for the PDSS object based on the phaseNode. More... | |
Private Attributes | |
| SSVolume_Model_enumType | volumeModel_ |
| Enumerated data type describing the type of volume model used to calculate the standard state volume of the species. More... | |
| doublereal | m_constMolarVolume |
| Value of the constant molar volume for the species. More... | |
| vector_fp | TCoeff_ |
| coefficients for the temperature representation More... | |
| doublereal | dVdT_ |
| Derivative of the volume wrt temperature. More... | |
| doublereal | d2VdT2_ |
| 2nd derivative of the volume wrt temperature More... | |
Properties of the Reference State of the Species in the Solution | |
| virtual doublereal | gibbs_RT_ref () const |
| Return the molar gibbs free energy divided by RT at reference pressure. More... | |
| virtual doublereal | enthalpy_RT_ref () const |
| Return the molar enthalpy divided by RT at reference pressure. More... | |
| virtual doublereal | entropy_R_ref () const |
| Return the molar entropy divided by R at reference pressure. More... | |
| virtual doublereal | cp_R_ref () const |
| Return the molar heat capacity divided by R at reference pressure. More... | |
| virtual doublereal | molarVolume_ref () const |
| Return the molar volume at reference pressure. More... | |
| void | calcMolarVolume () const |
| Does the internal calculation of the volume. More... | |
Additional Inherited Members | |
| Protected Attributes inherited from PDSS | |
| PDSS_enumType | m_pdssType |
| Enumerated type describing the type of the PDSS object. More... | |
| doublereal | m_temp |
| Current temperature used by the PDSS object. More... | |
| doublereal | m_pres |
| State of the system - pressure. More... | |
| doublereal | m_p0 |
| Reference state pressure of the species. More... | |
| doublereal | m_minTemp |
| Minimum temperature. More... | |
| doublereal | m_maxTemp |
| Maximum temperature. More... | |
| VPStandardStateTP * | m_tp |
| ThermoPhase which this species belongs to. More... | |
| VPSSMgr * | m_vpssmgr_ptr |
| Pointer to the VPSS manager for this object. More... | |
| doublereal | m_mw |
| Molecular Weight of the species. More... | |
| size_t | m_spindex |
| Species index in the ThermoPhase corresponding to this species. More... | |
| SpeciesThermo * | m_spthermo |
| Pointer to the species thermodynamic property manager. More... | |
| doublereal * | m_h0_RT_ptr |
| Reference state enthalpy divided by RT. More... | |
| doublereal * | m_cp0_R_ptr |
| Reference state heat capacity divided by R. More... | |
| doublereal * | m_s0_R_ptr |
| Reference state entropy divided by R. More... | |
| doublereal * | m_g0_RT_ptr |
| Reference state Gibbs free energy divided by RT. More... | |
| doublereal * | m_V0_ptr |
| Reference state molar volume (m3 kg-1) More... | |
| doublereal * | m_hss_RT_ptr |
| Standard state enthalpy divided by RT. More... | |
| doublereal * | m_cpss_R_ptr |
| Standard state heat capacity divided by R. More... | |
| doublereal * | m_sss_R_ptr |
| Standard state entropy divided by R. More... | |
| doublereal * | m_gss_RT_ptr |
| Standard state Gibbs free energy divided by RT. More... | |
| doublereal * | m_Vss_ptr |
| Standard State molar volume (m3 kg-1) More... | |
Detailed Description
Class for pressure dependent standard states that uses a standard state volume model of some sort.
Class PDSS_SSVol is an implementation class that compute the properties of a single species in a phase at its standard states, for a range of temperatures and pressures. This particular class assumes that the calculation of the thermodynamics functions can be separated into a temperature polynomial representation for thermo functions that can be handled bey a SimpleThermo object and a separate calculation for the standard state volume. The Models include a cubic polynomial in temperature for either the standard state volume or the standard state density. The manager uses a SimpleThermo object to handle the calculation of the reference state. This object then adds the pressure dependencies and the volume terms to these thermo functions to complete the representation.
The class includes the following models for the representation of the standard state volume:
- Constant Volume
- This standard state model is invoked with the keyword "constant_incompressible" or "constant". The standard state volume is considered constant.
\[ V^o_k(T,P) = a_0 \]
- This standard state model is invoked with the keyword "constant_incompressible" or "constant". The standard state volume is considered constant.
- Temperature polynomial for the standard state volume
- This standard state model is invoked with the keyword "temperature_polynomial". The standard state volume is considered a function of temperature only.
\[ V^o_k(T,P) = a_0 + a_1 T + a_2 T^2 + a_3 T^3 + a_4 T^4 \]
- This standard state model is invoked with the keyword "temperature_polynomial". The standard state volume is considered a function of temperature only.
- Temperature polynomial for the standard state density
- This standard state model is invoked with the keyword "density_temperature_polynomial". The standard state density, which is the inverse of the volume, is considered a function of temperature only.
\[ {\rho}^o_k(T,P) = \frac{M_k}{V^o_k(T,P)} = a_0 + a_1 T + a_2 T^2 + a_3 T^3 + a_4 T^4 \]
- This standard state model is invoked with the keyword "density_temperature_polynomial". The standard state density, which is the inverse of the volume, is considered a function of temperature only.
Specification of Species Standard State Properties
The standard molar Gibbs free energy for species k is determined from the enthalpy and entropy expressions
\[ G^o_k(T,P) = H^o_k(T,P) - S^o_k(T,P) \]
The enthalpy is calculated mostly from the SpeciesThermo object's enthalpy evalulator. The dependence on pressure originates from the Maxwell relation
\[ {\left(\frac{dH^o_k}{dP}\right)}_T = T {\left(\frac{dS^o_k}{dP}\right)}_T + V^o_k \]
which is equal to
\[ {\left(\frac{dH^o_k}{dP}\right)}_T = V^o_k - T {\left(\frac{dV^o_k}{dT}\right)}_P \]
The entropy is calculated mostly from the SpeciesThermo objects entropy evalulator. The dependence on pressure originates from the Maxwell relation:
\[ {\left(\frac{dS^o_k}{dP}\right)}_T = - {\left(\frac{dV^o_k}{dT}\right)}_P \]
The standard state constant-pressure heat capacity expression is obtained from taking the temperature derivative of the Maxwell relation involving the enthalpy given above to yield an expression for the pressure dependence of the heat capacity.
\[ {\left(\frac{d{C}^o_{p,k}}{dP}\right)}_T = - T {\left(\frac{{d}^2{V}^o_k}{{dT}^2}\right)}_T \]
The standard molar Internal Energy for species k is determined from the following relation.
\[ U^o_k(T,P) = H^o_k(T,P) - p V^o_k \]
XML Example
An example of the specification of a standard state for the LiCl molten salt which employs a constant molar volume expression.
An example of the specification of a standard state for the LiCl molten salt which has a temperature dependent standard state volume.
Definition at line 159 of file PDSS_SSVol.h.
Constructor & Destructor Documentation
| PDSS_SSVol | ( | VPStandardStateTP * | tp, |
| size_t | spindex | ||
| ) |
Constructor.
- Parameters
-
tp Pointer to the ThermoPhase object pertaining to the phase spindex Species index of the species in the phase
Definition at line 25 of file PDSS_SSVol.cpp.
References PDSS::m_pdssType, and PDSS_SSVol::TCoeff_.
Referenced by PDSS_SSVol::duplMyselfAsPDSS().
| PDSS_SSVol | ( | VPStandardStateTP * | tp, |
| size_t | spindex, | ||
| const std::string & | inputFile, | ||
| const std::string & | id = "" |
||
| ) |
Constructor that initializes the object by examining the input file of the ThermoPhase object.
This function calls the constructPDSSFile member function.
- Parameters
-
tp Pointer to the ThermoPhase object pertaining to the phase spindex Species index of the species in the phase inputFile String name of the input file id String name of the phase in the input file. The default is the empty string, in which case the first phase in the file is used.
Definition at line 36 of file PDSS_SSVol.cpp.
References PDSS_SSVol::constructPDSSFile(), and PDSS::m_pdssType.
| PDSS_SSVol | ( | VPStandardStateTP * | vptp_ptr, |
| size_t | spindex, | ||
| const XML_Node & | speciesNode, | ||
| const XML_Node & | phaseRef, | ||
| bool | spInstalled | ||
| ) |
Constructor that initializes the object by examining the input file of the ThermoPhase object.
This function calls the constructPDSSXML member function.
- Parameters
-
vptp_ptr Pointer to the ThermoPhase object pertaining to the phase spindex Species index of the species in the phase speciesNode Reference to the species XML tree. phaseRef Reference to the XML tree containing the phase information. spInstalled Boolean indicating whether the species is installed yet or not.
Definition at line 47 of file PDSS_SSVol.cpp.
References PDSS_SSVol::constructPDSSXML(), and PDSS::m_pdssType.
| PDSS_SSVol | ( | const PDSS_SSVol & | b | ) |
Member Function Documentation
| PDSS_SSVol & operator= | ( | const PDSS_SSVol & | b | ) |
Assignment operator.
- Parameters
-
b Object to be copeid
Definition at line 71 of file PDSS_SSVol.cpp.
References PDSS_SSVol::m_constMolarVolume, PDSS::operator=(), PDSS_SSVol::TCoeff_, and PDSS_SSVol::volumeModel_.
|
virtual |
Duplication routine for objects which inherit from PDSS.
This function can be used to duplicate objects derived from PDSS even if the application only has a pointer to PDSS to work with.
- Returns
- A pointer to the base PDSS object type
Reimplemented from PDSS.
Definition at line 83 of file PDSS_SSVol.cpp.
References PDSS_SSVol::PDSS_SSVol().
|
virtual |
Return the molar enthalpy in units of J kmol-1.
- Returns
- the species standard state enthalpy in J kmol-1 at the current temperature and pressure.
Reimplemented from PDSS.
Definition at line 186 of file PDSS_SSVol.cpp.
References PDSS_SSVol::enthalpy_RT(), Cantera::GasConstant, and PDSS::m_temp.
|
virtual |
Return the standard state molar enthalpy divided by RT.
- Returns
- The dimensionless species standard state enthalpy divided at the current temperature and pressure.
Reimplemented from PDSS.
Definition at line 194 of file PDSS_SSVol.cpp.
References PDSS::m_hss_RT_ptr, and PDSS::m_spindex.
Referenced by PDSS_SSVol::enthalpy_mole().
|
virtual |
Return the molar internal Energy in units of J kmol-1.
- Returns
- The species standard state internal Energy in J kmol-1 at the current temperature and pressure.
Reimplemented from PDSS.
Definition at line 200 of file PDSS_SSVol.cpp.
References Cantera::GasConstant, PDSS::m_h0_RT_ptr, PDSS::m_pres, PDSS::m_spindex, PDSS::m_temp, and PDSS::m_Vss_ptr.
|
virtual |
Return the molar entropy in units of J kmol-1 K-1.
- Returns
- The species standard state entropy in J kmol-1 K-1 at the current temperature and pressure.
Reimplemented from PDSS.
Definition at line 209 of file PDSS_SSVol.cpp.
References PDSS_SSVol::entropy_R(), and Cantera::GasConstant.
|
virtual |
Return the standard state entropy divided by RT.
- Returns
- The species standard state entropy divided by RT at the current temperature and pressure.
Reimplemented from PDSS.
Definition at line 216 of file PDSS_SSVol.cpp.
References PDSS::m_spindex, and PDSS::m_sss_R_ptr.
Referenced by PDSS_SSVol::entropy_mole().
|
virtual |
Return the molar Gibbs free energy in units of J kmol-1.
- Returns
- The species standard state Gibbs free energy in J kmol-1 at the current temperature and pressure.
Reimplemented from PDSS.
Definition at line 222 of file PDSS_SSVol.cpp.
References Cantera::GasConstant, PDSS_SSVol::gibbs_RT(), and PDSS::m_temp.
|
virtual |
Return the molar Gibbs free energy divided by RT.
- Returns
- The species standard state Gibbs free energy divided by RT at the current temperature and pressure.
Reimplemented from PDSS.
Definition at line 230 of file PDSS_SSVol.cpp.
References PDSS::m_gss_RT_ptr, and PDSS::m_spindex.
Referenced by PDSS_SSVol::gibbs_mole().
|
virtual |
Return the molar const pressure heat capacity in units of J kmol-1 K-1.
- Returns
- The species standard state Cp in J kmol-1 K-1 at the current temperature and pressure.
Reimplemented from PDSS.
Definition at line 236 of file PDSS_SSVol.cpp.
References Cantera::GasConstant, PDSS::m_cpss_R_ptr, and PDSS::m_spindex.
Referenced by PDSS_SSVol::cv_mole().
|
virtual |
Return the molar const pressure heat capacity divided by RT.
- Returns
- The species standard state Cp divided by RT at the current temperature and pressure.
Reimplemented from PDSS.
Definition at line 243 of file PDSS_SSVol.cpp.
References PDSS::m_cpss_R_ptr, and PDSS::m_spindex.
|
virtual |
Return the molar const volume heat capacity in units of J kmol-1 K-1.
- Returns
- The species standard state Cv in J kmol-1 K-1 at the current temperature and pressure.
Reimplemented from PDSS.
Definition at line 249 of file PDSS_SSVol.cpp.
References PDSS_SSVol::cp_mole(), PDSS::m_spindex, and PDSS::m_V0_ptr.
|
virtual |
Return the molar volume at standard state.
- Returns
- The standard state molar volume at the current temperature and pressure. Units are m**3 kmol-1.
Reimplemented from PDSS.
Definition at line 255 of file PDSS_SSVol.cpp.
References PDSS::m_spindex, and PDSS::m_Vss_ptr.
|
virtual |
Return the standard state density at standard state.
- Returns
- The standard state density at the current temperature and pressure. units are kg m-3
Reimplemented from PDSS.
Definition at line 261 of file PDSS_SSVol.cpp.
References PDSS::m_mw, PDSS::m_spindex, and PDSS::m_Vss_ptr.
|
virtual |
Return the molar gibbs free energy divided by RT at reference pressure.
- Returns
- The reference state gibbs free energy at the current temperature, divided by RT.
Reimplemented from PDSS.
Definition at line 268 of file PDSS_SSVol.cpp.
References PDSS::m_g0_RT_ptr, and PDSS::m_spindex.
|
virtual |
Return the molar enthalpy divided by RT at reference pressure.
- Returns
- The species reference state enthalpy at the current temperature, divided by RT.
Reimplemented from PDSS.
Definition at line 273 of file PDSS_SSVol.cpp.
References PDSS::m_h0_RT_ptr, and PDSS::m_spindex.
|
virtual |
Return the molar entropy divided by R at reference pressure.
- Returns
- The species reference state entropy at the current temperature, divided by R.
Reimplemented from PDSS.
Definition at line 278 of file PDSS_SSVol.cpp.
References PDSS::m_s0_R_ptr, and PDSS::m_spindex.
|
virtual |
Return the molar heat capacity divided by R at reference pressure.
- Returns
- The species reference state heat capacity divided by R at the current temperature.
Reimplemented from PDSS.
Definition at line 283 of file PDSS_SSVol.cpp.
References PDSS::m_cp0_R_ptr, and PDSS::m_spindex.
|
virtual |
Return the molar volume at reference pressure.
- Returns
- The reference state molar volume. units are m**3 kmol-1.
Reimplemented from PDSS.
Definition at line 288 of file PDSS_SSVol.cpp.
References PDSS::m_spindex, and PDSS::m_V0_ptr.
|
private |
Does the internal calculation of the volume.
Definition at line 293 of file PDSS_SSVol.cpp.
References Cantera::cSSVOLUME_CONSTANT, Cantera::cSSVOLUME_DENSITY_TPOLY, Cantera::cSSVOLUME_TPOLY, PDSS_SSVol::d2VdT2_, PDSS_SSVol::dVdT_, PDSS_SSVol::m_constMolarVolume, PDSS::m_mw, PDSS::m_spindex, PDSS::m_temp, PDSS::m_Vss_ptr, PDSS_SSVol::TCoeff_, and PDSS_SSVol::volumeModel_.
Referenced by PDSS_SSVol::setTemperature().
|
privatevirtual |
Sets the pressure in the object.
Currently, this sets the pressure in the PDSS object. It is indeterminant what happens to the owning VPStandardStateTP object and to the VPSSMgr object.
- Parameters
-
pres Pressure to be set (Pascal)
Reimplemented from PDSS.
Definition at line 332 of file PDSS_SSVol.cpp.
References PDSS_SSVol::d2VdT2_, PDSS_SSVol::dVdT_, Cantera::GasConstant, PDSS::m_cp0_R_ptr, PDSS::m_cpss_R_ptr, PDSS::m_gss_RT_ptr, PDSS::m_h0_RT_ptr, PDSS::m_hss_RT_ptr, PDSS::m_p0, PDSS::m_pres, PDSS::m_s0_R_ptr, PDSS::m_spindex, PDSS::m_sss_R_ptr, PDSS::m_temp, and PDSS::m_Vss_ptr.
|
privatevirtual |
Set the internal temperature.
- Parameters
-
temp Temperature (Kelvin)
Reimplemented from PDSS.
Definition at line 351 of file PDSS_SSVol.cpp.
References PDSS_SSVol::calcMolarVolume(), PDSS_SSVol::d2VdT2_, PDSS_SSVol::dVdT_, Cantera::GasConstant, PDSS::m_cp0_R_ptr, PDSS::m_cpss_R_ptr, PDSS::m_g0_RT_ptr, PDSS::m_gss_RT_ptr, PDSS::m_h0_RT_ptr, PDSS::m_hss_RT_ptr, PDSS::m_p0, PDSS::m_pres, PDSS::m_s0_R_ptr, PDSS::m_spindex, PDSS::m_spthermo, PDSS::m_sss_R_ptr, PDSS::m_temp, PDSS::m_Vss_ptr, and SpeciesThermo::update_one().
Referenced by PDSS_SSVol::setState_TP(), and PDSS_SSVol::setState_TR().
|
privatevirtual |
Set the internal temperature and pressure.
- Parameters
-
temp Temperature (Kelvin) pres pressure (Pascals)
Reimplemented from PDSS.
Definition at line 373 of file PDSS_SSVol.cpp.
References PDSS::m_pres, and PDSS_SSVol::setTemperature().
|
privatevirtual |
Set the internal temperature and density.
- Parameters
-
temp Temperature (Kelvin) rho Density (kg m-3)
Reimplemented from PDSS.
Definition at line 379 of file PDSS_SSVol.cpp.
References PDSS_SSVol::m_constMolarVolume, PDSS::m_mw, and PDSS_SSVol::setTemperature().
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privatevirtual |
|
privatevirtual |
|
privatevirtual |
|
privatevirtual |
saturation pressure
- Parameters
-
T Temperature (Kelvin)
Reimplemented from PDSS.
Definition at line 389 of file PDSS_SSVol.cpp.
|
privatevirtual |
Initialization routine for all of the shallow pointers.
This is a cascading call, where each level should call the the parent level.
The initThermo() routines get called before the initThermoXML() routines from the constructPDSSXML() routine.
Calls initPtrs();
Reimplemented from PDSS.
Definition at line 176 of file PDSS_SSVol.cpp.
References PDSS::initThermo(), PDSS_SSVol::m_constMolarVolume, PDSS::m_p0, PDSS::m_spindex, PDSS::m_tp, PDSS::m_V0_ptr, PDSS::m_Vss_ptr, SpeciesThermo::refPressure(), and ThermoPhase::speciesThermo().
|
private |
Initialization of a PDSS object using an input XML file.
This routine is a precursor to constructPDSSXML(XML_Node*) routine, which does most of the work.
- Parameters
-
vptp_ptr Pointer to the Variable pressure ThermoPhase object This object must have already been malloced. spindex Species index within the phase inputFile XML file containing the description of the phase id Optional parameter identifying the name of the phase. If none is given, the first XML phase element will be used.
Definition at line 130 of file PDSS_SSVol.cpp.
References XML_Node::build(), XML_Node::child(), PDSS_SSVol::constructPDSSXML(), XML_Node::findByAttr(), Cantera::findInputFile(), Cantera::findXMLPhase(), Cantera::get_XML_NameID(), XML_Node::root(), and Phase::speciesNames().
Referenced by PDSS_SSVol::PDSS_SSVol().
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private |
Initialization of a PDSS object using an xml tree.
This routine is a driver for the initialization of the object.
basic logic:
- initThermo() (cascade)
- getStuff from species Part of XML file
- initThermoXML(phaseNode) (cascade)
- Parameters
-
vptp_ptr Pointer to the Variable pressure ThermoPhase object This object must have already been malloced. spindex Species index within the phase speciesNode XML Node containing the species information phaseNode Reference to the phase Information for the phase that owns this species. spInstalled Boolean indicating whether the species is already installed.
Definition at line 88 of file PDSS_SSVol.cpp.
References Cantera::cSSVOLUME_CONSTANT, Cantera::cSSVOLUME_DENSITY_TPOLY, Cantera::cSSVOLUME_TPOLY, XML_Node::findByName(), ctml::getFloat(), ctml::getFloatArray(), PDSS::initThermo(), PDSS_SSVol::m_constMolarVolume, PDSS::m_p0, PDSS::m_spindex, PDSS::m_tp, XML_Node::name(), SpeciesThermo::refPressure(), ThermoPhase::speciesThermo(), PDSS_SSVol::TCoeff_, and PDSS_SSVol::volumeModel_.
Referenced by PDSS_SSVol::constructPDSSFile(), and PDSS_SSVol::PDSS_SSVol().
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Initialization routine for the PDSS object based on the phaseNode.
This is a cascading call, where each level should call the the parent level.
- Parameters
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phaseNode Reference to the phase Information for the phase that owns this species. id Optional parameter identifying the name of the phase. If none is given, the first XML phase element will be used.
Reimplemented from PDSS.
Definition at line 167 of file PDSS_SSVol.cpp.
References PDSS::initThermoXML(), PDSS::m_maxTemp, PDSS::m_minTemp, PDSS::m_mw, PDSS::m_p0, PDSS::m_spindex, PDSS::m_spthermo, PDSS::m_tp, SpeciesThermo::maxTemp(), SpeciesThermo::minTemp(), Phase::molecularWeight(), and SpeciesThermo::refPressure().
Member Data Documentation
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private |
Enumerated data type describing the type of volume model used to calculate the standard state volume of the species.
Definition at line 324 of file PDSS_SSVol.h.
Referenced by PDSS_SSVol::calcMolarVolume(), PDSS_SSVol::constructPDSSXML(), and PDSS_SSVol::operator=().
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Value of the constant molar volume for the species.
m3 / kmol
Definition at line 330 of file PDSS_SSVol.h.
Referenced by PDSS_SSVol::calcMolarVolume(), PDSS_SSVol::constructPDSSXML(), PDSS_SSVol::initThermo(), PDSS_SSVol::operator=(), and PDSS_SSVol::setState_TR().
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coefficients for the temperature representation
Definition at line 333 of file PDSS_SSVol.h.
Referenced by PDSS_SSVol::calcMolarVolume(), PDSS_SSVol::constructPDSSXML(), PDSS_SSVol::operator=(), and PDSS_SSVol::PDSS_SSVol().
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Derivative of the volume wrt temperature.
Definition at line 336 of file PDSS_SSVol.h.
Referenced by PDSS_SSVol::calcMolarVolume(), PDSS_SSVol::setPressure(), and PDSS_SSVol::setTemperature().
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mutableprivate |
2nd derivative of the volume wrt temperature
Definition at line 339 of file PDSS_SSVol.h.
Referenced by PDSS_SSVol::calcMolarVolume(), PDSS_SSVol::setPressure(), and PDSS_SSVol::setTemperature().
The documentation for this class was generated from the following files:
