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Opm::GasPvtThermal< Scalar > Class Template Reference

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 $R_v$ [m^3/m^3] of the water phase.
 
template<class Evaluation = Scalar>
Evaluation saturatedWaterVaporizationFactor (unsigned, const Evaluation &, const Evaluation &, const Evaluation &) const
 Returns the water vaporization factor $R_vw$ [m^3/m^3] of water saturated gas.
 
template<class Evaluation >
Evaluation saturatedOilVaporizationFactor (unsigned regionIdx, const Evaluation &temperature, const Evaluation &pressure) const
 Returns the oil vaporization factor $R_v$ [m^3/m^3] of the gas phase.
 
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 $R_v$ [m^3/m^3] of the gas phase.
 
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 IsothermalPvtisoThermalPvt () 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)
 

Detailed Description

template<class Scalar>
class Opm::GasPvtThermal< Scalar >

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.

Member Function Documentation

◆ saturatedOilVaporizationFactor() [1/2]

template<class Scalar >
template<class Evaluation >
Evaluation Opm::GasPvtThermal< Scalar >::saturatedOilVaporizationFactor ( unsigned  regionIdx,
const Evaluation &  temperature,
const Evaluation &  pressure 
) const
inline

Returns the oil vaporization factor $R_v$ [m^3/m^3] of the gas phase.

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.

◆ saturatedOilVaporizationFactor() [2/2]

template<class Scalar >
template<class Evaluation >
Evaluation Opm::GasPvtThermal< Scalar >::saturatedOilVaporizationFactor ( unsigned  regionIdx,
const Evaluation &  temperature,
const Evaluation &  pressure,
const Evaluation &  oilSaturation,
const Evaluation &  maxOilSaturation 
) const
inline

Returns the oil vaporization factor $R_v$ [m^3/m^3] of the gas phase.

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.

◆ saturationPressure()

template<class Scalar >
template<class Evaluation >
Evaluation Opm::GasPvtThermal< Scalar >::saturationPressure ( unsigned  regionIdx,
const Evaluation &  temperature,
const Evaluation &  pressure 
) const
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.


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