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Cantera
2.2.1
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Cantera
2.2.1
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Class for the liquid water pressure dependent standard state. More...
#include <PDSS_Water.h>
Public Member Functions | |
Constructors | |
| PDSS_Water () | |
| Bare constructor. More... | |
| PDSS_Water (VPStandardStateTP *tp, int spindex) | |
| Constructor that initializes the object by examining the XML entries from the ThermoPhase object. More... | |
| PDSS_Water (const PDSS_Water &b) | |
| Copy Constructor. More... | |
| PDSS_Water & | operator= (const PDSS_Water &b) |
| Assignment operator. More... | |
| PDSS_Water (VPStandardStateTP *tp, int spindex, const std::string &inputFile, const std::string &id="") | |
| Constructor that initializes the object by examining the input file of the variable pressure ThermoPhase object. More... | |
| PDSS_Water (VPStandardStateTP *tp, int spindex, const XML_Node &speciesNode, const XML_Node &phaseRef, bool spInstalled) | |
| Constructor that initializes the object by examining the input file of the variable pressure ThermoPhase object. 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 | 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 | gibbs_mole () const |
| Return the molar Gibbs free energy in units of J kmol-1. More... | |
| virtual doublereal | cp_mole () const |
| Return the molar const pressure heat capacity in units of J kmol-1 K-1. 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... | |
Properties of the Reference State of the Species in the Solution | |
| doublereal | pref_safe (doublereal temp) const |
| Returns a reference pressure value that can be safely calculated by the underlying real equation of state for water. More... | |
| 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... | |
Mechanical Equation of State Properties | |
| virtual doublereal | pressure () const |
| Returns the pressure (Pa) More... | |
| 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... | |
| void | setDensity (doublereal dens) |
| Set the density of the water phase. More... | |
| virtual doublereal | thermalExpansionCoeff () const |
| Return the volumetric thermal expansion coefficient. Units: 1/K. More... | |
| virtual doublereal | dthermalExpansionCoeffdT () const |
| Return the derivative of the volumetric thermal expansion coefficient. Units: 1/K2. More... | |
| virtual doublereal | isothermalCompressibility () const |
| Returns the isothermal compressibility. Units: 1/Pa. 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... | |
| WaterPropsIAPWS * | getWater () |
| Get a pointer to a changeable WaterPropsIAPWS object. More... | |
| WaterProps * | getWaterProps () |
| Get a pointer to a changeable WaterPropsIAPWS object. More... | |
Initialization of the Object | |
| void | constructSet () |
| Internal routine that initializes the underlying water model. More... | |
| void | constructPDSSFile (VPStandardStateTP *vptp_ptr, int 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, int spindex, const XML_Node &phaseNode, const std::string &id) |
| Initialization of a PDSS object using an XML tree. More... | |
 Public Member Functions inherited from PDSS_Molar | |
| virtual doublereal | enthalpy_RT () const |
| Return the standard state molar enthalpy divided by RT. More... | |
| virtual doublereal | entropy_R () const |
| Return the standard state entropy divided by RT. More... | |
| virtual doublereal | gibbs_RT () const |
| Return the molar Gibbs free energy divided by RT. More... | |
| virtual doublereal | cp_R () const |
| Return the molar const pressure heat capacity divided by RT. 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... | |
| PDSS_enumType | reportPDSSType () const |
| Returns the type of the standard state parameterization. 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 | 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... | |
| virtual void | initThermo () |
| Initialization routine for all of the shallow pointers. More... | |
| virtual void | initThermoXML (const XML_Node &phaseNode, const std::string &id) |
| Initialization routine for the PDSS object based on the phaseNode. 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... | |
Public Attributes | |
| bool | m_allowGasPhase |
| Since this phase represents a liquid phase, it's an error to return a gas-phase answer. More... | |
Private Attributes | |
| WaterPropsIAPWS | m_sub |
| Pointer to the WaterPropsIAPWS object, which does the actual calculations for the real equation of state. More... | |
| WaterProps | m_waterProps |
| Pointer to the WaterProps object. More... | |
| doublereal | m_dens |
| State of the system - density. More... | |
| int | m_iState |
| state of the fluid More... | |
| doublereal | EW_Offset |
| Offset constants used to obtain consistency with the NIST database. More... | |
| doublereal | SW_Offset |
| Offset constant used to obtain consistency with NIST convention. More... | |
| bool | m_verbose |
| Verbose flag - used? 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... | |
Class for the liquid water pressure dependent standard state.
Notes: Base state for thermodynamic properties:
The thermodynamic base state for water is set to the NIST basis here by specifying constants EW_Offset and SW_Offset. These offsets are specified so that the following properties hold:
Delta_Hfo_gas(298.15) = -241.826 kJ/gmol So_gas(298.15, 1bar) = 188.835 J/gmolK
The "o" here refers to a hypothetical ideal gas state. The way we achieve this in practice is to evaluate at a very low pressure and then use the theoretical ideal gas results to scale up to higher pressures:
Ho(1bar) = H(P0)
So(1bar) = S(P0) + RT ln(1bar/P0)
The offsets used in the steam tables are different than NIST's. They assume u_liq(TP) = 0.0, s_liq(TP) = 0.0, where TP is the triple point conditions.
Definition at line 51 of file PDSS_Water.h.
| PDSS_Water | ( | ) |
Bare constructor.
eliminate?
Definition at line 19 of file PDSS_Water.cpp.
References PDSS_Water::constructSet(), PDSS::m_maxTemp, PDSS::m_minTemp, PDSS::m_pdssType, and PDSS::m_spthermo.
Referenced by PDSS_Water::duplMyselfAsPDSS().
| PDSS_Water | ( | VPStandardStateTP * | tp, |
| int | spindex | ||
| ) |
Constructor that initializes the object by examining the XML entries from the ThermoPhase object.
This function calls the constructPDSS member function.
| tp | Pointer to the ThermoPhase object pertaining to the phase |
| spindex | Species index of the species in the phase |
Definition at line 35 of file PDSS_Water.cpp.
References PDSS_Water::constructSet(), PDSS::m_maxTemp, PDSS::m_minTemp, PDSS::m_pdssType, and PDSS::m_spthermo.
| PDSS_Water | ( | const PDSS_Water & | b | ) |
| PDSS_Water | ( | VPStandardStateTP * | tp, |
| int | spindex, | ||
| const std::string & | inputFile, | ||
| const std::string & | id = "" |
||
| ) |
Constructor that initializes the object by examining the input file of the variable pressure ThermoPhase object.
This function calls the constructPDSSFile member function.
| tp | Pointer to the variable pressure 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 52 of file PDSS_Water.cpp.
References PDSS_Water::constructPDSSFile(), PDSS::m_maxTemp, PDSS::m_minTemp, PDSS::m_pdssType, and PDSS::m_spthermo.
| PDSS_Water | ( | VPStandardStateTP * | tp, |
| int | spindex, | ||
| const XML_Node & | speciesNode, | ||
| const XML_Node & | phaseRef, | ||
| bool | spInstalled | ||
| ) |
Constructor that initializes the object by examining the input file of the variable pressure ThermoPhase object.
This function calls the constructPDSSXML member function.
| tp | 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 | Is the species already installed. |
Definition at line 70 of file PDSS_Water.cpp.
References PDSS_Water::constructPDSSXML(), PDSS::initThermo(), PDSS::m_maxTemp, PDSS::m_minTemp, PDSS::m_pdssType, and PDSS::m_spthermo.
| PDSS_Water & operator= | ( | const PDSS_Water & | b | ) |
Assignment operator.
| b | Object to be copied |
Definition at line 108 of file PDSS_Water.cpp.
References PDSS_Water::EW_Offset, PDSS_Water::m_allowGasPhase, PDSS_Water::m_dens, PDSS_Water::m_iState, PDSS_Water::m_sub, PDSS_Water::m_verbose, PDSS_Water::m_waterProps, PDSS::operator=(), and PDSS_Water::SW_Offset.
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Duplication routine for objects which inherit from PDSS.
This virtual routine can be used to duplicate PDSS objects inherited from PDSS even if the application only has a pointer to PDSS to work with.
Reimplemented from PDSS.
Definition at line 130 of file PDSS_Water.cpp.
References PDSS_Water::PDSS_Water().
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Return the molar enthalpy in units of J kmol-1.
Reimplemented from PDSS.
Definition at line 214 of file PDSS_Water.cpp.
References WaterPropsIAPWS::enthalpy(), PDSS_Water::EW_Offset, and PDSS_Water::m_sub.
Referenced by VPSSMgr_Water_ConstVol::_updateRefStateThermo(), VPSSMgr_Water_HKFT::_updateRefStateThermo(), VPSSMgr_Water_ConstVol::_updateStandardStateThermo(), VPSSMgr_Water_HKFT::_updateStandardStateThermo(), PDSS_Water::constructSet(), and VPSSMgr_Water_ConstVol::getEnthalpy_RT_ref().
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Return the molar internal Energy in units of J kmol-1.
Reimplemented from PDSS.
Definition at line 219 of file PDSS_Water.cpp.
References PDSS_Water::EW_Offset, WaterPropsIAPWS::intEnergy(), and PDSS_Water::m_sub.
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Return the molar entropy in units of J kmol-1 K-1.
Reimplemented from PDSS.
Definition at line 224 of file PDSS_Water.cpp.
References WaterPropsIAPWS::entropy(), PDSS_Water::m_sub, and PDSS_Water::SW_Offset.
Referenced by VPSSMgr_Water_ConstVol::_updateRefStateThermo(), VPSSMgr_Water_HKFT::_updateRefStateThermo(), VPSSMgr_Water_ConstVol::_updateStandardStateThermo(), VPSSMgr_Water_HKFT::_updateStandardStateThermo(), PDSS_Water::constructSet(), and VPSSMgr_Water_ConstVol::getEntropy_R_ref().
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Return the molar Gibbs free energy in units of J kmol-1.
Reimplemented from PDSS.
Definition at line 229 of file PDSS_Water.cpp.
References PDSS_Water::EW_Offset, WaterPropsIAPWS::Gibbs(), PDSS_Water::m_sub, PDSS::m_temp, and PDSS_Water::SW_Offset.
Referenced by VPSSMgr_Water_ConstVol::getGibbs_RT_ref().
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Return the molar const pressure heat capacity in units of J kmol-1 K-1.
Reimplemented from PDSS.
Definition at line 234 of file PDSS_Water.cpp.
References WaterPropsIAPWS::cp(), and PDSS_Water::m_sub.
Referenced by VPSSMgr_Water_ConstVol::_updateRefStateThermo(), VPSSMgr_Water_HKFT::_updateRefStateThermo(), VPSSMgr_Water_ConstVol::_updateStandardStateThermo(), VPSSMgr_Water_HKFT::_updateStandardStateThermo(), and VPSSMgr_Water_ConstVol::getCp_R_ref().
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Return the molar const volume heat capacity in units of J kmol-1 K-1.
Reimplemented from PDSS.
Definition at line 239 of file PDSS_Water.cpp.
References WaterPropsIAPWS::cv(), and PDSS_Water::m_sub.
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Return the molar volume at standard state.
Reimplemented from PDSS.
Definition at line 244 of file PDSS_Water.cpp.
References PDSS_Water::m_sub, and WaterPropsIAPWS::molarVolume().
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Return the standard state density at standard state.
Reimplemented from PDSS.
Definition at line 378 of file PDSS_Water.cpp.
References PDSS_Water::m_dens.
Referenced by VPSSMgr_Water_ConstVol::_updateRefStateThermo(), VPSSMgr_Water_HKFT::_updateRefStateThermo(), VPSSMgr_Water_ConstVol::_updateStandardStateThermo(), VPSSMgr_Water_HKFT::_updateStandardStateThermo(), DebyeHuckel::calcDensity(), PDSS_HKFT::g(), VPSSMgr_Water_ConstVol::getStandardVolumes_ref(), PDSS_HKFT::initThermo(), VPSSMgr_Water_ConstVol::initThermoXML(), VPSSMgr_Water_HKFT::initThermoXML(), and DebyeHuckel::initThermoXML().
| doublereal pref_safe | ( | doublereal | temp | ) | const |
Returns a reference pressure value that can be safely calculated by the underlying real equation of state for water.
Note, this function is needed because trying to calculate a one atm value around the critical point will cause a crash
| temp | Temperature (Kelvin) |
Definition at line 402 of file PDSS_Water.cpp.
References PDSS_Water::m_sub, Cantera::OneAtm, WaterPropsIAPWS::Pcrit(), WaterPropsIAPWS::psat_est(), and WaterPropsIAPWS::Tcrit().
Referenced by VPSSMgr_Water_ConstVol::_updateRefStateThermo(), VPSSMgr_Water_HKFT::_updateRefStateThermo(), PDSS_HKFT::cp_R_ref(), PDSS_HKFT::enthalpy_RT_ref(), PDSS_HKFT::entropy_R_ref(), VPSSMgr_Water_ConstVol::getCp_R_ref(), VPSSMgr_Water_ConstVol::getEnthalpy_RT_ref(), VPSSMgr_Water_ConstVol::getEntropy_R_ref(), VPSSMgr_Water_ConstVol::getGibbs_RT_ref(), VPSSMgr_Water_ConstVol::getStandardVolumes_ref(), PDSS_HKFT::gibbs_RT_ref(), and PDSS_HKFT::molarVolume_ref().
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Return the molar Gibbs free energy divided by RT at reference pressure.
Reimplemented from PDSS.
Definition at line 249 of file PDSS_Water.cpp.
References WaterPropsIAPWS::density(), WaterPropsIAPWS::enthalpy(), PDSS_Water::EW_Offset, Cantera::GasConstant, PDSS_Water::m_dens, PDSS::m_p0, PDSS_Water::m_sub, PDSS::m_temp, WaterPropsIAPWS::setState_TR(), and PDSS_Water::SW_Offset.
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Return the molar enthalpy divided by RT at reference pressure.
Reimplemented from PDSS.
Definition at line 258 of file PDSS_Water.cpp.
References WaterPropsIAPWS::density(), WaterPropsIAPWS::enthalpy(), PDSS_Water::EW_Offset, Cantera::GasConstant, PDSS_Water::m_dens, PDSS::m_p0, PDSS_Water::m_sub, PDSS::m_temp, and WaterPropsIAPWS::setState_TR().
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Return the molar entropy divided by R at reference pressure.
Reimplemented from PDSS.
Definition at line 267 of file PDSS_Water.cpp.
References WaterPropsIAPWS::density(), WaterPropsIAPWS::entropy(), Cantera::GasConstant, PDSS_Water::m_dens, PDSS::m_p0, PDSS_Water::m_sub, PDSS::m_temp, WaterPropsIAPWS::setState_TR(), and PDSS_Water::SW_Offset.
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Return the molar heat capacity divided by R at reference pressure.
Reimplemented from PDSS.
Definition at line 276 of file PDSS_Water.cpp.
References WaterPropsIAPWS::cp(), WaterPropsIAPWS::density(), Cantera::GasConstant, PDSS_Water::m_dens, PDSS::m_p0, PDSS_Water::m_sub, PDSS::m_temp, and WaterPropsIAPWS::setState_TR().
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Return the molar volume at reference pressure.
Reimplemented from PDSS.
Definition at line 285 of file PDSS_Water.cpp.
References WaterPropsIAPWS::density(), PDSS_Water::m_dens, PDSS::m_p0, PDSS_Water::m_sub, PDSS::m_temp, WaterPropsIAPWS::molarVolume(), and WaterPropsIAPWS::setState_TR().
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Returns the pressure (Pa)
Reimplemented from PDSS.
Definition at line 294 of file PDSS_Water.cpp.
References PDSS::m_pres, PDSS_Water::m_sub, and WaterPropsIAPWS::pressure().
Referenced by PDSS_Water::dthermalExpansionCoeffdT().
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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.
| pres | Pressure to be set (Pascal) |
Reimplemented from PDSS.
Definition at line 300 of file PDSS_Water.cpp.
References WaterPropsIAPWS::density(), Cantera::fp2str(), PDSS_Water::m_allowGasPhase, PDSS_Water::m_dens, PDSS_Water::m_iState, PDSS::m_pres, PDSS_Water::m_sub, PDSS::m_temp, WaterPropsIAPWS::phaseState(), and WaterPropsIAPWS::Tcrit().
Referenced by PDSS_Water::setState_TP().
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Set the internal temperature.
| temp | Temperature (Kelvin) |
Reimplemented from PDSS.
Definition at line 383 of file PDSS_Water.cpp.
References PDSS_Water::m_dens, PDSS_Water::m_sub, PDSS::m_temp, and WaterPropsIAPWS::setState_TR().
Referenced by PDSS_Water::constructSet().
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Set the internal temperature and pressure.
| temp | Temperature (Kelvin) |
| pres | pressure (Pascals) |
Reimplemented from PDSS.
Definition at line 389 of file PDSS_Water.cpp.
References PDSS::m_temp, and PDSS_Water::setPressure().
Referenced by VPSSMgr_Water_ConstVol::_updateRefStateThermo(), VPSSMgr_Water_HKFT::_updateRefStateThermo(), VPSSMgr_Water_ConstVol::_updateStandardStateThermo(), VPSSMgr_Water_HKFT::_updateStandardStateThermo(), PDSS_HKFT::g(), VPSSMgr_Water_ConstVol::getCp_R_ref(), VPSSMgr_Water_ConstVol::getEnthalpy_RT_ref(), VPSSMgr_Water_ConstVol::getEntropy_R_ref(), VPSSMgr_Water_ConstVol::getGibbs_RT_ref(), VPSSMgr_Water_ConstVol::getStandardVolumes_ref(), PDSS_HKFT::initThermo(), VPSSMgr_Water_ConstVol::initThermoXML(), VPSSMgr_Water_HKFT::initThermoXML(), and DebyeHuckel::initThermoXML().
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Set the internal temperature and density.
| temp | Temperature (Kelvin) |
| rho | Density (kg m-3) |
Reimplemented from PDSS.
Definition at line 395 of file PDSS_Water.cpp.
References PDSS_Water::m_dens, PDSS_Water::m_sub, PDSS::m_temp, and WaterPropsIAPWS::setState_TR().
| void setDensity | ( | doublereal | dens | ) |
Set the density of the water phase.
This is a non-virtual function because it specific to this object.
| dens | Density of the water (kg/m3) |
Definition at line 372 of file PDSS_Water.cpp.
References PDSS_Water::m_dens, PDSS_Water::m_sub, PDSS::m_temp, and WaterPropsIAPWS::setState_TR().
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Return the volumetric thermal expansion coefficient. Units: 1/K.
The thermal expansion coefficient is defined as
\[ \beta = \frac{1}{v}\left(\frac{\partial v}{\partial T}\right)_P \]
Reimplemented from PDSS.
Definition at line 331 of file PDSS_Water.cpp.
References WaterPropsIAPWS::coeffThermExp(), and PDSS_Water::m_sub.
Referenced by PDSS_HKFT::g().
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Return the derivative of the volumetric thermal expansion coefficient. Units: 1/K2.
The thermal expansion coefficient is defined as
\[ \beta = \frac{1}{v}\left(\frac{\partial v}{\partial T}\right)_P \]
Definition at line 336 of file PDSS_Water.cpp.
References WaterPropsIAPWS::coeffThermExp(), WaterPropsIAPWS::density(), Cantera::fp2str(), PDSS_Water::m_dens, PDSS_Water::m_iState, PDSS_Water::m_sub, PDSS::m_temp, PDSS_Water::pressure(), and WaterPropsIAPWS::setState_TR().
Referenced by PDSS_HKFT::g().
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Returns the isothermal compressibility. Units: 1/Pa.
The isothermal compressibility is defined as
\[ \kappa_T = -\frac{1}{v}\left(\frac{\partial v}{\partial P}\right)_T \]
or
\[ \kappa_T = \frac{1}{\rho}\left(\frac{\partial \rho}{\partial P}\right)_T \]
Definition at line 352 of file PDSS_Water.cpp.
References WaterPropsIAPWS::isothermalCompressibility(), and PDSS_Water::m_sub.
Referenced by PDSS_HKFT::g().
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critical temperature
Reimplemented from PDSS.
Definition at line 357 of file PDSS_Water.cpp.
References PDSS_Water::m_sub, and WaterPropsIAPWS::Tcrit().
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critical pressure
Reimplemented from PDSS.
Definition at line 362 of file PDSS_Water.cpp.
References PDSS_Water::m_sub, and WaterPropsIAPWS::Pcrit().
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critical density
Reimplemented from PDSS.
Definition at line 367 of file PDSS_Water.cpp.
References PDSS_Water::m_sub, and WaterPropsIAPWS::Rhocrit().
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saturation pressure
| T | Temperature (Kelvin) |
Reimplemented from PDSS.
Definition at line 415 of file PDSS_Water.cpp.
References WaterPropsIAPWS::density(), PDSS_Water::m_dens, PDSS_Water::m_sub, PDSS::m_temp, and WaterPropsIAPWS::psat().
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inline |
Get a pointer to a changeable WaterPropsIAPWS object.
Definition at line 212 of file PDSS_Water.h.
References PDSS_Water::m_sub.
Referenced by WaterTransport::initTP(), and WaterProps::WaterProps().
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inline |
Get a pointer to a changeable WaterPropsIAPWS object.
Definition at line 217 of file PDSS_Water.h.
References PDSS_Water::m_waterProps.
Referenced by WaterTransport::initTP().
| void constructSet | ( | ) |
Internal routine that initializes the underlying water model.
Definition at line 170 of file PDSS_Water.cpp.
References WaterPropsIAPWS::density(), PDSS_Water::enthalpy_mole(), PDSS_Water::entropy_mole(), PDSS_Water::EW_Offset, Cantera::GasConstant, PDSS_Water::m_dens, PDSS::m_mw, PDSS::m_p0, PDSS::m_pres, PDSS_Water::m_sub, Cantera::OneAtm, PDSS_Water::setTemperature(), and PDSS_Water::SW_Offset.
Referenced by PDSS_Water::constructPDSSXML(), and PDSS_Water::PDSS_Water().
| void constructPDSSFile | ( | VPStandardStateTP * | vptp_ptr, |
| int | spindex, | ||
| const std::string & | inputFile, | ||
| const std::string & | id | ||
| ) |
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.
| 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 141 of file PDSS_Water.cpp.
References XML_Node::build(), PDSS_Water::constructPDSSXML(), Cantera::findInputFile(), and Cantera::findXMLPhase().
Referenced by PDSS_Water::PDSS_Water().
| void constructPDSSXML | ( | VPStandardStateTP * | vptp_ptr, |
| int | spindex, | ||
| const XML_Node & | phaseNode, | ||
| const std::string & | id | ||
| ) |
Initialization of a PDSS object using an XML tree.
This routine is a driver for the initialization of the object.
basic logic:
| vptp_ptr | Pointer to the Variable pressure ThermoPhase object This object must have already been malloced. |
| spindex | Species index within the phase |
| 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. |
Definition at line 135 of file PDSS_Water.cpp.
References PDSS_Water::constructSet().
Referenced by PDSS_Water::constructPDSSFile(), and PDSS_Water::PDSS_Water().
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mutableprivate |
Pointer to the WaterPropsIAPWS object, which does the actual calculations for the real equation of state.
This object owns m_sub
Definition at line 280 of file PDSS_Water.h.
Referenced by PDSS_Water::constructSet(), PDSS_Water::cp_mole(), PDSS_Water::cp_R_ref(), PDSS_Water::critDensity(), PDSS_Water::critPressure(), PDSS_Water::critTemperature(), PDSS_Water::cv_mole(), PDSS_Water::dthermalExpansionCoeffdT(), PDSS_Water::enthalpy_mole(), PDSS_Water::enthalpy_RT_ref(), PDSS_Water::entropy_mole(), PDSS_Water::entropy_R_ref(), PDSS_Water::getWater(), PDSS_Water::gibbs_mole(), PDSS_Water::gibbs_RT_ref(), PDSS_Water::intEnergy_mole(), PDSS_Water::isothermalCompressibility(), PDSS_Water::molarVolume(), PDSS_Water::molarVolume_ref(), PDSS_Water::operator=(), PDSS_Water::pref_safe(), PDSS_Water::pressure(), PDSS_Water::satPressure(), PDSS_Water::setDensity(), PDSS_Water::setPressure(), PDSS_Water::setState_TR(), PDSS_Water::setTemperature(), and PDSS_Water::thermalExpansionCoeff().
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private |
Pointer to the WaterProps object.
This class is used to house several approximation routines for properties of water.
This object owns m_waterProps, and the WaterPropsIAPWS object used by WaterProps is m_sub, which is defined above.
Definition at line 290 of file PDSS_Water.h.
Referenced by PDSS_Water::getWaterProps(), and PDSS_Water::operator=().
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private |
State of the system - density.
Density is the independent variable here, but it's hidden behind the object's interface.
Definition at line 297 of file PDSS_Water.h.
Referenced by PDSS_Water::constructSet(), PDSS_Water::cp_R_ref(), PDSS_Water::density(), PDSS_Water::dthermalExpansionCoeffdT(), PDSS_Water::enthalpy_RT_ref(), PDSS_Water::entropy_R_ref(), PDSS_Water::gibbs_RT_ref(), PDSS_Water::molarVolume_ref(), PDSS_Water::operator=(), PDSS_Water::satPressure(), PDSS_Water::setDensity(), PDSS_Water::setPressure(), PDSS_Water::setState_TR(), and PDSS_Water::setTemperature().
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private |
state of the fluid
Definition at line 309 of file PDSS_Water.h.
Referenced by PDSS_Water::dthermalExpansionCoeffdT(), PDSS_Water::operator=(), and PDSS_Water::setPressure().
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private |
Offset constants used to obtain consistency with the NIST database.
This is added to all internal energy and enthalpy results. units = J kmol-1.
Definition at line 316 of file PDSS_Water.h.
Referenced by PDSS_Water::constructSet(), PDSS_Water::enthalpy_mole(), PDSS_Water::enthalpy_RT_ref(), PDSS_Water::gibbs_mole(), PDSS_Water::gibbs_RT_ref(), PDSS_Water::intEnergy_mole(), and PDSS_Water::operator=().
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private |
Offset constant used to obtain consistency with NIST convention.
This is added to all internal entropy results. units = J kmol-1 K-1.
Definition at line 323 of file PDSS_Water.h.
Referenced by PDSS_Water::constructSet(), PDSS_Water::entropy_mole(), PDSS_Water::entropy_R_ref(), PDSS_Water::gibbs_mole(), PDSS_Water::gibbs_RT_ref(), and PDSS_Water::operator=().
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private |
Verbose flag - used?
Definition at line 326 of file PDSS_Water.h.
Referenced by PDSS_Water::operator=().
| bool m_allowGasPhase |
Since this phase represents a liquid phase, it's an error to return a gas-phase answer.
However, if the below is true, then a gas-phase answer is allowed. This is used to check the thermodynamic consistency with ideal-gas thermo functions for example.
Definition at line 335 of file PDSS_Water.h.
Referenced by PDSS_Water::operator=(), and PDSS_Water::setPressure().
1.8.6