My Project
Loading...
Searching...
No Matches
Opm::EclStone1Material< TraitsT, GasOilMaterialLawT, OilWaterMaterialLawT, ParamsT > Class Template Reference

Implements the second phase capillary pressure/relperm law suggested by Stone as used by the ECLipse simulator. More...

#include <EclStone1Material.hpp>

Inheritance diagram for Opm::EclStone1Material< TraitsT, GasOilMaterialLawT, OilWaterMaterialLawT, ParamsT >:

Public Types

using GasOilMaterialLaw = GasOilMaterialLawT
 
using OilWaterMaterialLaw = OilWaterMaterialLawT
 
using Traits = TraitsT
 
using Params = ParamsT
 
using Scalar = typename Traits::Scalar
 

Static Public Member Functions

template<class ContainerT , class FluidState >
static void capillaryPressures (ContainerT &values, const Params &params, const FluidState &state)
 Implements the default three phase capillary pressure law used by the ECLipse simulator.
 
static void oilWaterHysteresisParams (Scalar &pcSwMdc, Scalar &krnSwMdc, const Params &params)
 
static void setOilWaterHysteresisParams (const Scalar &pcSwMdc, const Scalar &krnSwMdc, Params &params)
 
static void gasOilHysteresisParams (Scalar &pcSwMdc, Scalar &krnSwMdc, const Params &params)
 
static void setGasOilHysteresisParams (const Scalar &pcSwMdc, const Scalar &krnSwMdc, Params &params)
 
template<class FluidState , class Evaluation = typename FluidState::Scalar>
static Evaluation pcgn (const Params &params, const FluidState &fs)
 Capillary pressure between the gas and the non-wetting liquid (i.e., oil) phase.
 
template<class FluidState , class Evaluation = typename FluidState::Scalar>
static Evaluation pcnw (const Params &params, const FluidState &fs)
 Capillary pressure between the non-wetting liquid (i.e., oil) and the wetting liquid (i.e., water) phase.
 
template<class ContainerT , class FluidState >
static void saturations (ContainerT &, const Params &, const FluidState &)
 The inverse of the capillary pressure.
 
template<class FluidState , class Evaluation = typename FluidState::Scalar>
static Evaluation Sg (const Params &, const FluidState &)
 The saturation of the gas phase.
 
template<class FluidState , class Evaluation = typename FluidState::Scalar>
static Evaluation Sn (const Params &, const FluidState &)
 The saturation of the non-wetting (i.e., oil) phase.
 
template<class FluidState , class Evaluation = typename FluidState::Scalar>
static Evaluation Sw (const Params &, const FluidState &)
 The saturation of the wetting (i.e., water) phase.
 
template<class ContainerT , class FluidState >
static void relativePermeabilities (ContainerT &values, const Params &params, const FluidState &fluidState)
 The relative permeability of all phases.
 
template<class FluidState , class Evaluation = typename FluidState::Scalar>
static Evaluation krg (const Params &params, const FluidState &fluidState)
 The relative permeability of the gas phase.
 
template<class FluidState , class Evaluation = typename FluidState::Scalar>
static Evaluation krw (const Params &params, const FluidState &fluidState)
 The relative permeability of the wetting phase.
 
template<class FluidState , class Evaluation = typename FluidState::Scalar>
static Evaluation krn (const Params &params, const FluidState &fluidState)
 The relative permeability of the non-wetting (i.e., oil) phase.
 
template<class Evaluation , class FluidState >
static Evaluation relpermOilInOilGasSystem (const Params &params, const FluidState &fluidState)
 The relative permeability of oil in oil/gas system.
 
template<class Evaluation , class FluidState >
static Evaluation relpermOilInOilWaterSystem (const Params &params, const FluidState &fluidState)
 The relative permeability of oil in oil/water system.
 
template<class FluidState >
static bool updateHysteresis (Params &params, const FluidState &fluidState)
 Update the hysteresis parameters after a time step.
 

Static Public Attributes

static constexpr int numPhases = 3
 
static constexpr int waterPhaseIdx = Traits::wettingPhaseIdx
 
static constexpr int oilPhaseIdx = Traits::nonWettingPhaseIdx
 
static constexpr int gasPhaseIdx = Traits::gasPhaseIdx
 
static constexpr bool implementsTwoPhaseApi = false
 Specify whether this material law implements the two-phase convenience API.
 
static constexpr bool implementsTwoPhaseSatApi = false
 Specify whether this material law implements the two-phase convenience API which only depends on the phase saturations.
 
static constexpr bool isSaturationDependent = true
 Specify whether the quantities defined by this material law are saturation dependent.
 
static constexpr bool isPressureDependent = false
 Specify whether the quantities defined by this material law are dependent on the absolute pressure.
 
static constexpr bool isTemperatureDependent = false
 Specify whether the quantities defined by this material law are temperature dependent.
 
static constexpr bool isCompositionDependent = false
 Specify whether the quantities defined by this material law are dependent on the phase composition.
 

Detailed Description

template<class TraitsT, class GasOilMaterialLawT, class OilWaterMaterialLawT, class ParamsT = EclStone1MaterialParams<TraitsT, GasOilMaterialLawT, OilWaterMaterialLawT>>
class Opm::EclStone1Material< TraitsT, GasOilMaterialLawT, OilWaterMaterialLawT, ParamsT >

Implements the second phase capillary pressure/relperm law suggested by Stone as used by the ECLipse simulator.

This material law is valid for three fluid phases and only depends on the saturations.

The required two-phase relations are supplied by means of template arguments and can be an arbitrary other material laws. (Provided that these only depend on saturation.)

Member Function Documentation

◆ capillaryPressures()

template<class TraitsT , class GasOilMaterialLawT , class OilWaterMaterialLawT , class ParamsT = EclStone1MaterialParams<TraitsT, GasOilMaterialLawT, OilWaterMaterialLawT>>
template<class ContainerT , class FluidState >
static void Opm::EclStone1Material< TraitsT, GasOilMaterialLawT, OilWaterMaterialLawT, ParamsT >::capillaryPressures ( ContainerT &  values,
const Params &  params,
const FluidState &  state 
)
inlinestatic

Implements the default three phase capillary pressure law used by the ECLipse simulator.

This material law is valid for three fluid phases and only depends on the saturations.

The required two-phase relations are supplied by means of template arguments and can be an arbitrary other material laws.

Parameters
valuesContainer for the return values
paramsParameters
stateThe fluid state

◆ pcgn()

template<class TraitsT , class GasOilMaterialLawT , class OilWaterMaterialLawT , class ParamsT = EclStone1MaterialParams<TraitsT, GasOilMaterialLawT, OilWaterMaterialLawT>>
template<class FluidState , class Evaluation = typename FluidState::Scalar>
static Evaluation Opm::EclStone1Material< TraitsT, GasOilMaterialLawT, OilWaterMaterialLawT, ParamsT >::pcgn ( const Params &  params,
const FluidState &  fs 
)
inlinestatic

Capillary pressure between the gas and the non-wetting liquid (i.e., oil) phase.

This is defined as

\[
p_{c,gn} = p_g - p_n
\]

◆ pcnw()

template<class TraitsT , class GasOilMaterialLawT , class OilWaterMaterialLawT , class ParamsT = EclStone1MaterialParams<TraitsT, GasOilMaterialLawT, OilWaterMaterialLawT>>
template<class FluidState , class Evaluation = typename FluidState::Scalar>
static Evaluation Opm::EclStone1Material< TraitsT, GasOilMaterialLawT, OilWaterMaterialLawT, ParamsT >::pcnw ( const Params &  params,
const FluidState &  fs 
)
inlinestatic

Capillary pressure between the non-wetting liquid (i.e., oil) and the wetting liquid (i.e., water) phase.

This is defined as

\[
p_{c,nw} = p_n - p_w
\]

◆ relativePermeabilities()

template<class TraitsT , class GasOilMaterialLawT , class OilWaterMaterialLawT , class ParamsT = EclStone1MaterialParams<TraitsT, GasOilMaterialLawT, OilWaterMaterialLawT>>
template<class ContainerT , class FluidState >
static void Opm::EclStone1Material< TraitsT, GasOilMaterialLawT, OilWaterMaterialLawT, ParamsT >::relativePermeabilities ( ContainerT &  values,
const Params &  params,
const FluidState &  fluidState 
)
inlinestatic

The relative permeability of all phases.

The relative permeability of the water phase it uses the same value as the relative permeability for water in the water-oil law with $S_o = 1 - S_w$. The gas relative permebility is taken from the gas-oil material law, but with $S_o = 1 -
S_g$. The relative permeability of the oil phase is calculated using the relative permeabilities of the oil phase in the two two-phase systems.

A more detailed description can be found in the "Three phase oil relative permeability models" section of the ECLipse technical description.

◆ updateHysteresis()

template<class TraitsT , class GasOilMaterialLawT , class OilWaterMaterialLawT , class ParamsT = EclStone1MaterialParams<TraitsT, GasOilMaterialLawT, OilWaterMaterialLawT>>
template<class FluidState >
static bool Opm::EclStone1Material< TraitsT, GasOilMaterialLawT, OilWaterMaterialLawT, ParamsT >::updateHysteresis ( Params &  params,
const FluidState &  fluidState 
)
inlinestatic

Update the hysteresis parameters after a time step.

This assumes that the nested two-phase material laws are parameters for EclHysteresisLaw. If they are not, calling this methid will cause a compiler error. (But not calling it will still work.)


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