opm-simulators/opm/models/blackoil/blackoilonephaseindices.hh
2020-11-17 18:10:21 +01:00

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6.8 KiB
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// -*- mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*-
// vi: set et ts=4 sw=4 sts=4:
/*
This file is part of the Open Porous Media project (OPM).
OPM is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 2 of the License, or
(at your option) any later version.
OPM is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with OPM. If not, see <http://www.gnu.org/licenses/>.
Consult the COPYING file in the top-level source directory of this
module for the precise wording of the license and the list of
copyright holders.
*/
/*!
* \file
*
* \copydoc Ewoms::BlackOilTwoPhaseIndices
*/
#ifndef EWOMS_BLACK_OIL_ONE_PHASE_INDICES_HH
#define EWOMS_BLACK_OIL_ONE_PHASE_INDICES_HH
#include <cassert>
namespace Opm {
/*!
* \ingroup BlackOilModel
*
* \brief The primary variable and equation indices for the black-oil model.
*/
template <unsigned numSolventsV, unsigned numExtbosV, unsigned numPolymersV, unsigned numEnergyV, bool enableFoam, bool enableBrine, unsigned PVOffset, unsigned canonicalCompIdx>
struct BlackOilOnePhaseIndices
{
//! Is phase enabled or not
static const bool oilEnabled = (canonicalCompIdx == 0);
static const bool waterEnabled = (canonicalCompIdx == 1);
static const bool gasEnabled = (canonicalCompIdx == 2);
//! Are solvents involved?
static const bool enableSolvent = numSolventsV > 0;
//! Is extbo invoked?
static const bool enableExtbo = numExtbosV > 0;
//! Are polymers involved?
static const bool enablePolymer = numPolymersV > 0;
//! Shall energy be conserved?
static const bool enableEnergy = numEnergyV > 0;
//! Number of solvent components to be considered
static const int numSolvents = enableSolvent ? numSolventsV : 0;
//! Number of components to be considered for extbo
static const int numExtbos = enableExtbo ? numExtbosV : 0;
//! Number of polymer components to be considered
static const int numPolymers = enablePolymer ? numPolymersV : 0;
//! Number of energy equations to be considered
static const int numEnergy = enableEnergy ? numEnergyV : 0;
//! Number of foam equations to be considered
static const int numFoam = enableFoam? 1 : 0;
//! Number of salt equations to be considered
static const int numBrine = enableBrine? 1 : 0;
//! The number of fluid phases
static const int numPhases = 1;
//! The number of equations
static const int numEq = numPhases + numSolvents + numExtbos + numPolymers + numEnergy + numFoam + numBrine;
//////////////////////////////
// Primary variable indices
//////////////////////////////
//! The index of the water saturation. For two-phase oil gas models this is disabled.
static const int waterSaturationIdx = -10000;
//! Index of the oil pressure in a vector of primary variables
static const int pressureSwitchIdx = PVOffset + 0;
/*!
* \brief Index of the switching variable which determines the composition of the
* hydrocarbon phases.
*
* \note For two-phase water oil models this is disabled.
*/
static const int compositionSwitchIdx = -10000;
//! Index of the primary variable for the first solvent
static const int solventSaturationIdx =
enableSolvent ? PVOffset + numPhases : -1000;
//! Index of the primary variable for the first extbo component
static const int zFractionIdx =
enableExtbo ? PVOffset + numPhases + numSolvents : -1000;
//! Index of the primary variable for the first polymer
static const int polymerConcentrationIdx =
enablePolymer ? PVOffset + numPhases + numSolvents : -1000;
//! Index of the primary variable for the second polymer primary variable (molecular weight)
static const int polymerMoleWeightIdx =
numPolymers > 1 ? polymerConcentrationIdx + 1 : -1000;
//! Index of the primary variable for the foam
static const int foamConcentrationIdx =
enableFoam ? PVOffset + numPhases + numSolvents + numPolymers : -1000;
//! Index of the primary variable for the salt
static const int saltConcentrationIdx =
enableBrine ? PVOffset + numPhases + numSolvents + numExtbos + numPolymers + numFoam : -1000;
//! Index of the primary variable for temperature
static const int temperatureIdx =
enableEnergy ? PVOffset + numPhases + numSolvents + numExtbos + numPolymers + numFoam + numBrine: - 1000;
//////////////////////
// Equation indices
//////////////////////
//! \brief returns the index of "active" component
static unsigned canonicalToActiveComponentIndex(unsigned /*compIdx*/)
{
return 0;
}
static unsigned activeToCanonicalComponentIndex([[maybe_unused]] unsigned compIdx)
{
// assumes canonical oil = 0, water = 1, gas = 2;
assert(compIdx == 0);
if(gasEnabled) {
return 2;
} else if (waterEnabled) {
return 1;
} else {
assert(oilEnabled);
}
return 0;
}
//! Index of the continuity equation of the first (and only) phase
static const int conti0EqIdx = PVOffset + 0;
//! Index of the continuity equation for the first solvent component
static const int contiSolventEqIdx =
enableSolvent ? PVOffset + numPhases : -1000;
//! Index of the continuity equation for the first extbo component
static const int contiZfracEqIdx =
enableExtbo ? PVOffset + numPhases + numSolvents : -1000;
//! Index of the continuity equation for the first polymer component
static const int contiPolymerEqIdx =
enablePolymer ? PVOffset + numPhases + numSolvents : -1000;
//! Index of the continuity equation for the second polymer component (molecular weight)
static const int contiPolymerMWEqIdx =
numPolymers > 1 ? contiPolymerEqIdx + 1 : -1000;
//! Index of the continuity equation for the foam component
static const int contiFoamEqIdx =
enableFoam ? PVOffset + numPhases + numSolvents + numPolymers : -1000;
//! Index of the continuity equation for the salt component
static const int contiBrineEqIdx =
enableBrine ? PVOffset + numPhases + numSolvents + numExtbos + numPolymers + numFoam : -1000;
//! Index of the continuity equation for energy
static const int contiEnergyEqIdx =
enableEnergy ? PVOffset + numPhases + numSolvents + numExtbos + numPolymers + numFoam + numBrine: -1000;
};
} // namespace Opm
#endif