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opm-simulators/ebos/eclmixingratecontrols.hh
Arne Morten Kvarving 20a9c3a0c3 EclProblem: put drsdtcon with friends in separate class
2023-08-11 11:43:39 +02:00

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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 Opm::EclProblem
*/
#ifndef ECL_MIXING_RATE_CONTROLS_HH
#define ECL_MIXING_RATE_CONTROLS_HH
#include <opm/input/eclipse/Schedule/Schedule.hpp>
#include <opm/material/fluidsystems/BlackOilFluidSystem.hpp>
#include <opm/material/common/MathToolbox.hpp>
#include <limits>
#include <vector>
namespace Opm {
class EclipseState;
//! \brief Class handling mixing rate controls for an EclProblem.
template<class FluidSystem, class Scalar>
class EclMixingRateControls {
public:
EclMixingRateControls(const Schedule& schedule);
EclMixingRateControls(const EclMixingRateControls& rhs);
static EclMixingRateControls serializationTestObject(const Schedule& schedule);
bool operator==(const EclMixingRateControls& rhs) const;
EclMixingRateControls& operator=(const EclMixingRateControls& rhs);
void init(std::size_t numDof, int episodeIdx, const unsigned ntpvt);
bool drsdtActive(int episodeIdx) const;
bool drvdtActive(int episodeIdx) const;
bool drsdtConvective(int episodeIdx) const;
/*!
* \brief Returns the dynamic drsdt convective mixing value
*/
Scalar drsdtcon(const unsigned elemIdx,
int episodeIdx,
const int pvtRegionIdx) const;
/*!
* \brief Returns the maximum value of the gas dissolution factor at the current time
* for a given degree of freedom.
*/
Scalar maxGasDissolutionFactor(unsigned timeIdx,
unsigned globalDofIdx,
const int episodeIdx,
const int pvtRegionIdx) const;
/*!
* \brief Returns the maximum value of the oil vaporization factor at the current
* time for a given degree of freedom.
*/
Scalar maxOilVaporizationFactor(const unsigned timeIdx,
const unsigned globalDofIdx,
const int episodeIdx,
const int pvtRegionIdx) const;
void updateExplicitQuantities(const int episodeIdx,
const Scalar timeStepSize);
void updateLastValues(const unsigned elemIdx,
const Scalar Rs,
const Scalar Rv);
void updateMaxValues(const int episodeIdx,
const Scalar timeStepSize);
template<class Serializer>
void serializeOp(Serializer& serializer)
{
serializer(lastRv_);
serializer(maxDRv_);
serializer(convectiveDrs_);
serializer(lastRs_);
serializer(maxDRs_);
serializer(dRsDtOnlyFreeGas_);
}
template<class IntensiveQuantities>
void update(unsigned compressedDofIdx,
const IntensiveQuantities& iq,
const int episodeIdx,
const Scalar gravity,
const Scalar permZ,
const Scalar distZ,
const int pvtRegionIdx,
const std::array<bool,3>& active)
{
if (active[0]) {
// This implements the convective DRSDT as described in
// Sandve et al. "Convective dissolution in field scale CO2 storage simulations using the OPM Flow
// simulator" Submitted to TCCS 11, 2021
const auto& fs = iq.fluidState();
this->updateConvectiveDRsDt_(compressedDofIdx,
getValue(fs.temperature(FluidSystem::oilPhaseIdx)),
getValue(fs.pressure(FluidSystem::oilPhaseIdx)),
getValue(fs.Rs()),
getValue(fs.saturation(FluidSystem::oilPhaseIdx)),
getValue(iq.porosity()),
permZ,
distZ,
gravity,
fs.pvtRegionIndex());
}
if (active[1]) {
const auto& fs = iq.fluidState();
using FluidState = typename std::decay<decltype(fs)>::type;
const auto& oilVaporizationControl = schedule_[episodeIdx].oilvap();
constexpr Scalar freeGasMinSaturation_ = 1e-7;
if (oilVaporizationControl.getOption(pvtRegionIdx) ||
fs.saturation(FluidSystem::gasPhaseIdx) > freeGasMinSaturation_) {
lastRs_[compressedDofIdx]
= BlackOil::template getRs_<FluidSystem, FluidState, Scalar>(fs, iq.pvtRegionIndex());
}
else
lastRs_[compressedDofIdx] = std::numeric_limits<Scalar>::infinity();
}
if (active[2]) {
const auto& fs = iq.fluidState();
using FluidState = typename std::decay<decltype(fs)>::type;
lastRv_[compressedDofIdx]
= BlackOil::template getRv_<FluidSystem, FluidState, Scalar>(fs, iq.pvtRegionIndex());
}
}
private:
void updateConvectiveDRsDt_(const unsigned compressedDofIdx,
const Scalar t,
const Scalar p,
const Scalar rs,
const Scalar so,
const Scalar poro,
const Scalar permz,
const Scalar distZ,
const Scalar gravity,
const int pvtRegionIndex);
std::vector<Scalar> lastRv_;
std::vector<Scalar> maxDRv_;
std::vector<Scalar> convectiveDrs_;
std::vector<Scalar> lastRs_;
std::vector<Scalar> maxDRs_;
std::vector<bool> dRsDtOnlyFreeGas_; // apply the DRSDT rate limit only to cells that exhibit free gas
const Schedule& schedule_;
};
} // namespace Opm
#endif
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