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This class implements temperature dependence of the PVT properties of gas. More...
#include <GasPvtThermal.hpp>
Public Types | |
using | IsothermalPvt = GasPvtMultiplexer< Scalar, false > |
using | TabulatedOneDFunction = Tabulated1DFunction< Scalar > |
Public Member Functions | |
GasPvtThermal (IsothermalPvt *isothermalPvt, const std::vector< TabulatedOneDFunction > &gasvisctCurves, const std::vector< Scalar > &viscrefPress, const std::vector< Scalar > &viscRef, const std::vector< Scalar > &gasdentRefTemp, const std::vector< Scalar > &gasdentCT1, const std::vector< Scalar > &gasdentCT2, const std::vector< Scalar > &gasJTRefPres, const std::vector< Scalar > &gasJTC, const std::vector< TabulatedOneDFunction > &internalEnergyCurves, bool enableThermalDensity, bool enableJouleThomson, bool enableThermalViscosity, bool enableInternalEnergy) | |
GasPvtThermal (const GasPvtThermal &data) | |
void | setNumRegions (size_t numRegions) |
Set the number of PVT-regions considered by this object. | |
void | setVapPars (const Scalar par1, const Scalar par2) |
void | initEnd () |
Finish initializing the thermal part of the gas phase PVT properties. | |
bool | enableThermalDensity () const |
Returns true iff the density of the gas phase is temperature dependent. | |
bool | enableJouleThomson () const |
Returns true iff Joule-Thomson effect for the gas phase is active. | |
bool | enableThermalViscosity () const |
Returns true iff the viscosity of the gas phase is temperature dependent. | |
size_t | numRegions () const |
template<class Evaluation > | |
Evaluation | internalEnergy (unsigned regionIdx, const Evaluation &temperature, const Evaluation &pressure, const Evaluation &Rv, const Evaluation &) const |
Returns the specific internal energy [J/kg] of gas given a set of parameters. | |
template<class Evaluation > | |
Evaluation | viscosity (unsigned regionIdx, const Evaluation &temperature, const Evaluation &pressure, const Evaluation &Rv, const Evaluation &Rvw) const |
Returns the dynamic viscosity [Pa s] of the fluid phase given a set of parameters. | |
template<class Evaluation > | |
Evaluation | saturatedViscosity (unsigned regionIdx, const Evaluation &temperature, const Evaluation &pressure) const |
Returns the dynamic viscosity [Pa s] of the oil-saturated gas phase given a set of parameters. | |
template<class Evaluation > | |
Evaluation | inverseFormationVolumeFactor (unsigned regionIdx, const Evaluation &temperature, const Evaluation &pressure, const Evaluation &Rv, const Evaluation &) const |
Returns the formation volume factor [-] of the fluid phase. | |
template<class Evaluation > | |
Evaluation | saturatedInverseFormationVolumeFactor (unsigned regionIdx, const Evaluation &temperature, const Evaluation &pressure) const |
Returns the formation volume factor [-] of oil-saturated gas. | |
template<class Evaluation > | |
Evaluation | saturatedWaterVaporizationFactor (unsigned, const Evaluation &, const Evaluation &) const |
Returns the water vaporization factor ![]() | |
template<class Evaluation = Scalar> | |
Evaluation | saturatedWaterVaporizationFactor (unsigned, const Evaluation &, const Evaluation &, const Evaluation &) const |
Returns the water vaporization factor ![]() | |
template<class Evaluation > | |
Evaluation | saturatedOilVaporizationFactor (unsigned regionIdx, const Evaluation &temperature, const Evaluation &pressure) const |
Returns the oil vaporization factor ![]() | |
template<class Evaluation > | |
Evaluation | saturatedOilVaporizationFactor (unsigned regionIdx, const Evaluation &temperature, const Evaluation &pressure, const Evaluation &oilSaturation, const Evaluation &maxOilSaturation) const |
Returns the oil vaporization factor ![]() | |
template<class Evaluation > | |
Evaluation | saturationPressure (unsigned regionIdx, const Evaluation &temperature, const Evaluation &pressure) const |
Returns the saturation pressure of the gas phase [Pa]. | |
template<class Evaluation > | |
Evaluation | diffusionCoefficient (const Evaluation &temperature, const Evaluation &pressure, unsigned compIdx) const |
const IsothermalPvt * | isoThermalPvt () const |
const Scalar | gasReferenceDensity (unsigned regionIdx) const |
const std::vector< TabulatedOneDFunction > & | gasvisctCurves () const |
const std::vector< Scalar > & | viscrefPress () const |
const std::vector< Scalar > & | viscRef () const |
const std::vector< Scalar > & | gasdentRefTemp () const |
const std::vector< Scalar > & | gasdentCT1 () const |
const std::vector< Scalar > & | gasdentCT2 () const |
const std::vector< TabulatedOneDFunction > & | internalEnergyCurves () const |
bool | enableInternalEnergy () const |
const std::vector< Scalar > & | gasJTRefPres () const |
const std::vector< Scalar > & | gasJTC () const |
bool | operator== (const GasPvtThermal< Scalar > &data) const |
GasPvtThermal< Scalar > & | operator= (const GasPvtThermal< Scalar > &data) |
This class implements temperature dependence of the PVT properties of gas.
Note that this only implements the temperature part, i.e., it requires the isothermal properties as input.
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inline |
Returns the oil vaporization factor
This method implements temperature dependence and requires the gas pressure, temperature and the oil saturation as inputs. Currently it is just a dummy method which passes through the isothermal oil vaporization factor.
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inline |
Returns the oil vaporization factor
This method implements temperature dependence and requires the gas pressure, temperature and the oil saturation as inputs. Currently it is just a dummy method which passes through the isothermal oil vaporization factor.
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inline |
Returns the saturation pressure of the gas phase [Pa].
This method implements temperature dependence and requires isothermal satuation pressure and temperature as inputs. Currently it is just a dummy method which passes through the isothermal saturation pressure.