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Opm::DeadOilPvt< Scalar > Class Template Reference

This class represents the Pressure-Volume-Temperature relations of the oil phase without dissolved gas. More...

#include <DeadOilPvt.hpp>

Public Types

using TabulatedOneDFunction = Tabulated1DFunction< Scalar >
 

Public Member Functions

void setNumRegions (size_t numRegions)
 
void setVapPars (const Scalar, const Scalar)
 
void setReferenceDensities (unsigned regionIdx, Scalar rhoRefOil, Scalar, Scalar)
 Initialize the reference densities of all fluids for a given PVT region.
 
void setInverseOilFormationVolumeFactor (unsigned regionIdx, const TabulatedOneDFunction &invBo)
 Initialize the function for the oil formation volume factor.
 
void setOilViscosity (unsigned regionIdx, const TabulatedOneDFunction &muo)
 Initialize the viscosity of the oil phase.
 
void initEnd ()
 Finish initializing the oil phase PVT properties.
 
unsigned numRegions () const
 Return the number of PVT regions which are considered by this PVT-object.
 
template<class Evaluation >
Evaluation internalEnergy (unsigned, const Evaluation &, const Evaluation &, const Evaluation &) const
 Returns the specific enthalpy [J/kg] of oil given a set of parameters.
 
template<class Evaluation >
Evaluation viscosity (unsigned regionIdx, const Evaluation &temperature, const Evaluation &pressure, const Evaluation &) 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 &, const Evaluation &pressure) const
 Returns the dynamic viscosity [Pa s] of gas saturated oil given a pressure.
 
template<class Evaluation >
Evaluation inverseFormationVolumeFactor (unsigned regionIdx, const Evaluation &, const Evaluation &pressure, const Evaluation &) const
 Returns the formation volume factor [-] of the fluid phase.
 
template<class Evaluation >
Evaluation saturatedInverseFormationVolumeFactor (unsigned regionIdx, const Evaluation &, const Evaluation &pressure) const
 Returns the formation volume factor [-] of saturated oil.
 
template<class Evaluation >
Evaluation saturatedGasDissolutionFactor (unsigned, const Evaluation &, const Evaluation &) const
 Returns the gas dissolution factor $R_s$ [m^3/m^3] of the oil phase.
 
template<class Evaluation >
Evaluation saturatedGasDissolutionFactor (unsigned, const Evaluation &, const Evaluation &, const Evaluation &, const Evaluation &) const
 Returns the gas dissolution factor $R_s$ [m^3/m^3] of the oil phase.
 
template<class Evaluation >
Evaluation saturationPressure (unsigned, const Evaluation &, const Evaluation &) const
 Returns the saturation pressure of the oil phase [Pa] depending on its mass fraction of the gas component.
 
template<class Evaluation >
Evaluation saturatedGasMassFraction (unsigned, const Evaluation &, const Evaluation &) const
 
template<class Evaluation >
Evaluation saturatedGasMoleFraction (unsigned, const Evaluation &, const Evaluation &) const
 
template<class Evaluation >
Evaluation diffusionCoefficient (const Evaluation &, const Evaluation &, unsigned) const
 
Scalar oilReferenceDensity (unsigned regionIdx) const
 
const std::vector< TabulatedOneDFunction > & inverseOilB () const
 
const std::vector< TabulatedOneDFunction > & oilMu () const
 
const std::vector< TabulatedOneDFunction > & inverseOilBMu () const
 

Detailed Description

template<class Scalar>
class Opm::DeadOilPvt< Scalar >

This class represents the Pressure-Volume-Temperature relations of the oil phase without dissolved gas.

Member Function Documentation

◆ saturatedInverseFormationVolumeFactor()

template<class Scalar >
template<class Evaluation >
Evaluation Opm::DeadOilPvt< Scalar >::saturatedInverseFormationVolumeFactor ( unsigned  regionIdx,
const Evaluation &  ,
const Evaluation &  pressure 
) const
inline

Returns the formation volume factor [-] of saturated oil.

Note that by definition, dead oil is always gas saturated.

◆ saturationPressure()

template<class Scalar >
template<class Evaluation >
Evaluation Opm::DeadOilPvt< Scalar >::saturationPressure ( unsigned  ,
const Evaluation &  ,
const Evaluation &   
) const
inline

Returns the saturation pressure of the oil phase [Pa] depending on its mass fraction of the gas component.

Parameters
RsThe surface volume of gas component dissolved in what will yield one cubic meter of oil at the surface [-]

◆ setInverseOilFormationVolumeFactor()

template<class Scalar >
void Opm::DeadOilPvt< Scalar >::setInverseOilFormationVolumeFactor ( unsigned  regionIdx,
const TabulatedOneDFunction invBo 
)
inline

Initialize the function for the oil formation volume factor.

The oil formation volume factor $B_o$ is a function of $(p_o, X_o^G)$ and represents the partial density of the oil component in the oil phase at a given pressure.

This method sets $1/B_o(p_o)$. Note that the mass fraction of the gas component in the oil phase is missing when assuming dead oil.

◆ setOilViscosity()

template<class Scalar >
void Opm::DeadOilPvt< Scalar >::setOilViscosity ( unsigned  regionIdx,
const TabulatedOneDFunction muo 
)
inline

Initialize the viscosity of the oil phase.

This is a function of $(R_s, p_o)$...


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