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This class represents the Pressure-Volume-Temperature relations of the gas phase in the black-oil model. More...
#include <GasPvtMultiplexer.hpp>
Public Member Functions | |
GasPvtMultiplexer (GasPvtApproach approach, void *realGasPvt) | |
GasPvtMultiplexer (const GasPvtMultiplexer< Scalar, enableThermal > &data) | |
void | setApproach (GasPvtApproach gasPvtAppr) |
void | initEnd () |
unsigned | numRegions () const |
Return the number of PVT regions which are considered by this PVT-object. | |
const Scalar | gasReferenceDensity (unsigned regionIdx) |
Return the reference density which are considered by this PVT-object. | |
template<class Evaluation > | |
Evaluation | internalEnergy (unsigned regionIdx, const Evaluation &temperature, const Evaluation &pressure, const Evaluation &Rv) const |
Returns the specific enthalpy [J/kg] of gas given a set of parameters. | |
template<class Evaluation = Scalar> | |
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 = Scalar> | |
Evaluation | saturatedViscosity (unsigned regionIdx, const Evaluation &temperature, const Evaluation &pressure) const |
Returns the dynamic viscosity [Pa s] of oil saturated gas given a set of parameters. | |
template<class Evaluation = Scalar> | |
Evaluation | inverseFormationVolumeFactor (unsigned regionIdx, const Evaluation &temperature, const Evaluation &pressure, const Evaluation &Rv, const Evaluation &Rvw) const |
Returns the formation volume factor [-] of the fluid phase. | |
template<class Evaluation = Scalar> | |
Evaluation | saturatedInverseFormationVolumeFactor (unsigned regionIdx, const Evaluation &temperature, const Evaluation &pressure) const |
Returns the formation volume factor [-] of oil saturated gas given a set of parameters. | |
template<class Evaluation = Scalar> | |
Evaluation | saturatedOilVaporizationFactor (unsigned regionIdx, const Evaluation &temperature, const Evaluation &pressure) const |
Returns the oil vaporization factor ![]() | |
template<class Evaluation = Scalar> | |
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 = Scalar> | |
Evaluation | saturatedWaterVaporizationFactor (unsigned regionIdx, const Evaluation &temperature, const Evaluation &pressure) const |
Returns the water vaporization factor ![]() | |
template<class Evaluation = Scalar> | |
Evaluation | saturationPressure (unsigned regionIdx, const Evaluation &temperature, const Evaluation &Rv) const |
Returns the saturation pressure of the gas phase [Pa] depending on its mass fraction of the oil component. More... | |
template<class Evaluation > | |
Evaluation | diffusionCoefficient (const Evaluation &temperature, const Evaluation &pressure, unsigned compIdx) const |
Calculate the binary molecular diffusion coefficient for a component in a fluid phase [mol^2 * s / (kg*m^3)]. More... | |
GasPvtApproach | gasPvtApproach () const |
Returns the concrete approach for calculating the PVT relations. More... | |
template<GasPvtApproach approachV> | |
std::enable_if< approachV==GasPvtApproach::DryGasPvt, DryGasPvt< Scalar > >::type & | getRealPvt () |
template<GasPvtApproach approachV> | |
std::enable_if< approachV==GasPvtApproach::DryGasPvt, const DryGasPvt< Scalar > >::type & | getRealPvt () const |
template<GasPvtApproach approachV> | |
std::enable_if< approachV==GasPvtApproach::DryHumidGasPvt, DryHumidGasPvt< Scalar > >::type & | getRealPvt () |
template<GasPvtApproach approachV> | |
std::enable_if< approachV==GasPvtApproach::DryHumidGasPvt, const DryHumidGasPvt< Scalar > >::type & | getRealPvt () const |
template<GasPvtApproach approachV> | |
std::enable_if< approachV==GasPvtApproach::WetHumidGasPvt, WetHumidGasPvt< Scalar > >::type & | getRealPvt () |
template<GasPvtApproach approachV> | |
std::enable_if< approachV==GasPvtApproach::WetHumidGasPvt, const WetHumidGasPvt< Scalar > >::type & | getRealPvt () const |
template<GasPvtApproach approachV> | |
std::enable_if< approachV==GasPvtApproach::WetGasPvt, WetGasPvt< Scalar > >::type & | getRealPvt () |
template<GasPvtApproach approachV> | |
std::enable_if< approachV==GasPvtApproach::WetGasPvt, const WetGasPvt< Scalar > >::type & | getRealPvt () const |
template<GasPvtApproach approachV> | |
std::enable_if< approachV==GasPvtApproach::ThermalGasPvt, GasPvtThermal< Scalar > >::type & | getRealPvt () |
template<GasPvtApproach approachV> | |
std::enable_if< approachV==GasPvtApproach::ThermalGasPvt, const GasPvtThermal< Scalar > >::type & | getRealPvt () const |
template<GasPvtApproach approachV> | |
std::enable_if< approachV==GasPvtApproach::Co2GasPvt, Co2GasPvt< Scalar > >::type & | getRealPvt () |
template<GasPvtApproach approachV> | |
std::enable_if< approachV==GasPvtApproach::Co2GasPvt, const Co2GasPvt< Scalar > >::type & | getRealPvt () const |
const void * | realGasPvt () const |
bool | operator== (const GasPvtMultiplexer< Scalar, enableThermal > &data) const |
GasPvtMultiplexer< Scalar, enableThermal > & | operator= (const GasPvtMultiplexer< Scalar, enableThermal > &data) |
This class represents the Pressure-Volume-Temperature relations of the gas phase in the black-oil model.
This is a multiplexer class which forwards all calls to the real implementation.
Note that, since the main application for this class is the black oil fluid system, the API exposed by this class is pretty specific to the assumptions made by the black oil model.
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inline |
Calculate the binary molecular diffusion coefficient for a component in a fluid phase [mol^2 * s / (kg*m^3)].
Molecular diffusion of a compoent is caused by a gradient of the mole fraction and follows the law
where is the component's mole fraction in phase
,
is the diffusion coefficient and
is the diffusive flux.
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inline |
Returns the concrete approach for calculating the PVT relations.
(This is only determined at runtime.)
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inline |
Returns the saturation pressure of the gas phase [Pa] depending on its mass fraction of the oil component.
Rv | The surface volume of oil component dissolved in what will yield one cubic meter of gas at the surface [-] |