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Auxiliary routines that to solve the ODEs that emerge from the hydrostatic equilibrium problem. More...
#include <opm/material/common/Tabulated1DFunction.hpp>#include <opm/input/eclipse/EclipseState/InitConfig/Equil.hpp>#include <memory>#include <vector>Go to the source code of this file.
Classes | |
| class | Opm::EQUIL::Miscibility::RsFunction< Scalar > |
| Base class for phase mixing functions. More... | |
| class | Opm::EQUIL::Miscibility::NoMixing< Scalar > |
| Type that implements "no phase mixing" policy. More... | |
| class | Opm::EQUIL::Miscibility::RsVD< FluidSystem > |
| Type that implements "dissolved gas-oil ratio" tabulated as a function of depth policy. More... | |
| class | Opm::EQUIL::Miscibility::PBVD< FluidSystem > |
| Type that implements "dissolved gas-oil ratio" tabulated as a function of depth policy. More... | |
| class | Opm::EQUIL::Miscibility::PDVD< FluidSystem > |
| Type that implements "vaporized oil-gas ratio" tabulated as a function of depth policy. More... | |
| class | Opm::EQUIL::Miscibility::RvVD< FluidSystem > |
| Type that implements "vaporized oil-gas ratio" tabulated as a function of depth policy. More... | |
| class | Opm::EQUIL::Miscibility::RvwVD< FluidSystem > |
| Type that implements "vaporized water-gas ratio" tabulated as a function of depth policy. More... | |
| class | Opm::EQUIL::Miscibility::RsSatAtContact< FluidSystem > |
| Class that implements "dissolved gas-oil ratio" (Rs) as function of depth and pressure as follows: More... | |
| class | Opm::EQUIL::Miscibility::RvSatAtContact< FluidSystem > |
| Class that implements "vaporized oil-gas ratio" (Rv) as function of depth and pressure as follows: More... | |
| class | Opm::EQUIL::Miscibility::RvwSatAtContact< FluidSystem > |
| Class that implements "vaporized water-gas ratio" (Rvw) as function of depth and pressure as follows: More... | |
| class | Opm::EQUIL::EquilReg< Scalar > |
| Aggregate information base of an equilibration region. More... | |
| struct | Opm::EQUIL::PcEq< FluidSystem, MaterialLawManager > |
| Functor for inverting capillary pressure function. More... | |
| struct | Opm::EQUIL::PcEqSum< FluidSystem, MaterialLawManager > |
| Functor for inverting a sum of capillary pressure functions. More... | |
Namespaces | |
| namespace | Opm |
| This file contains a set of helper functions used by VFPProd / VFPInj. | |
| namespace | Opm::EQUIL |
| Types and routines that collectively implement a basic ECLIPSE-style equilibration-based initialisation scheme. | |
| namespace | Opm::EQUIL::Miscibility |
| Types and routines relating to phase mixing in equilibration calculations. | |
Functions | |
| template<class FluidSystem , class MaterialLawManager > | |
| FluidSystem::Scalar | Opm::EQUIL::minSaturations (const MaterialLawManager &materialLawManager, const int phase, const int cell) |
| template<class FluidSystem , class MaterialLawManager > | |
| FluidSystem::Scalar | Opm::EQUIL::maxSaturations (const MaterialLawManager &materialLawManager, const int phase, const int cell) |
| template<class FluidSystem , class MaterialLawManager > | |
| FluidSystem::Scalar | Opm::EQUIL::satFromPc (const MaterialLawManager &materialLawManager, const int phase, const int cell, const typename FluidSystem::Scalar targetPc, const bool increasing=false) |
| Compute saturation of some phase corresponding to a given capillary pressure. | |
| template<class FluidSystem , class MaterialLawManager > | |
| FluidSystem::Scalar | Opm::EQUIL::satFromSumOfPcs (const MaterialLawManager &materialLawManager, const int phase1, const int phase2, const int cell, const typename FluidSystem::Scalar targetPc) |
| Compute saturation of some phase corresponding to a given capillary pressure, where the capillary pressure function is given as a sum of two other functions. | |
| template<class FluidSystem , class MaterialLawManager > | |
| FluidSystem::Scalar | Opm::EQUIL::satFromDepth (const MaterialLawManager &materialLawManager, const typename FluidSystem::Scalar cellDepth, const typename FluidSystem::Scalar contactDepth, const int phase, const int cell, const bool increasing=false) |
| Compute saturation from depth. Used for constant capillary pressure function. | |
| template<class FluidSystem , class MaterialLawManager > | |
| bool | Opm::EQUIL::isConstPc (const MaterialLawManager &materialLawManager, const int phase, const int cell) |
| Return true if capillary pressure function is constant. | |
Auxiliary routines that to solve the ODEs that emerge from the hydrostatic equilibrium problem.
1.9.8