mirror of
https://github.com/OPM/opm-simulators.git
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167 lines
6.9 KiB
C++
167 lines
6.9 KiB
C++
// -*- mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*-
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// vi: set et ts=4 sw=4 sts=4:
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/*
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This file is part of the Open Porous Media project (OPM).
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OPM is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 2 of the License, or
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(at your option) any later version.
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OPM is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with OPM. If not, see <http://www.gnu.org/licenses/>.
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Consult the COPYING file in the top-level source directory of this
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module for the precise wording of the license and the list of
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copyright holders.
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*/
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/*!
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* \file
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*
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* \copydoc Opm::EclThresholdPressure
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*/
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#ifndef EWOMS_ECL_THRESHOLD_PRESSURE_HH
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#define EWOMS_ECL_THRESHOLD_PRESSURE_HH
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#include <opm/models/utils/propertysystem.hh>
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#include <opm/models/discretization/common/fvbaseproperties.hh>
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#include <opm/models/common/multiphasebaseproperties.hh>
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#include <ebos/eclgenericthresholdpressure.hh>
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#include <opm/material/densead/Evaluation.hpp>
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#include <opm/material/densead/Math.hpp>
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#include <algorithm>
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#include <vector>
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namespace Opm {
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/*!
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* \ingroup EclBlackOilSimulator
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*
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* \brief This class calculates the threshold pressure for grid faces according to the
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* Eclipse Reference Manual.
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*
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* If the difference of the pressure potential between two cells is below the threshold
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* pressure, the pressure potential difference is assumed to be zero, if it is larger
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* than the threshold pressure, it is reduced by the threshold pressure.
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*/
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template <class TypeTag>
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class EclThresholdPressure : public EclGenericThresholdPressure<GetPropType<TypeTag, Properties::Grid>,
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GetPropType<TypeTag, Properties::GridView>,
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GetPropType<TypeTag, Properties::ElementMapper>,
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GetPropType<TypeTag, Properties::Scalar>>
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{
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using BaseType = EclGenericThresholdPressure<GetPropType<TypeTag, Properties::Grid>,
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GetPropType<TypeTag, Properties::GridView>,
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GetPropType<TypeTag, Properties::ElementMapper>,
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GetPropType<TypeTag, Properties::Scalar>>;
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using Simulator = GetPropType<TypeTag, Properties::Simulator>;
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using Scalar = GetPropType<TypeTag, Properties::Scalar>;
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using Evaluation = GetPropType<TypeTag, Properties::Evaluation>;
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using ElementContext = GetPropType<TypeTag, Properties::ElementContext>;
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using FluidSystem = GetPropType<TypeTag, Properties::FluidSystem>;
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enum { numPhases = FluidSystem::numPhases };
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public:
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EclThresholdPressure(const Simulator& simulator)
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: BaseType(simulator.vanguard().cartesianIndexMapper(),
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simulator.vanguard().gridView(),
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simulator.model().elementMapper(),
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simulator.vanguard().eclState())
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, simulator_(simulator)
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{
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}
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/*!
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* \brief Actually compute the threshold pressures over a face as a pre-compute step.
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*/
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void finishInit()
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{
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this->BaseType::finishInit();
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if (this->enableThresholdPressure_ && !this->thpresDefault_.empty()) {
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this->computeDefaultThresholdPressures_();
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this->applyExplicitThresholdPressures_();
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}
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}
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private:
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// compute the defaults of the threshold pressures using the initial condition
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void computeDefaultThresholdPressures_()
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{
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const auto& vanguard = simulator_.vanguard();
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const auto& gridView = vanguard.gridView();
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using Toolbox = MathToolbox<Evaluation>;
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// loop over the whole grid and compute the maximum gravity adjusted pressure
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// difference between two EQUIL regions.
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ElementContext elemCtx(simulator_);
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for (const auto& elem : elements(gridView, Dune::Partitions::interior)) {
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elemCtx.updateAll(elem);
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const auto& stencil = elemCtx.stencil(/*timeIdx=*/0);
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for (unsigned scvfIdx = 0; scvfIdx < stencil.numInteriorFaces(); ++ scvfIdx) {
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const auto& face = stencil.interiorFace(scvfIdx);
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unsigned i = face.interiorIndex();
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unsigned j = face.exteriorIndex();
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unsigned insideElemIdx = elemCtx.globalSpaceIndex(i, /*timeIdx=*/0);
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unsigned outsideElemIdx = elemCtx.globalSpaceIndex(j, /*timeIdx=*/0);
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unsigned equilRegionInside = this->elemEquilRegion_[insideElemIdx];
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unsigned equilRegionOutside = this->elemEquilRegion_[outsideElemIdx];
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if (equilRegionInside == equilRegionOutside)
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// the current face is not at the boundary between EQUIL regions!
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continue;
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// don't include connections with negligible flow
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const Evaluation& trans = simulator_.problem().transmissibility(elemCtx, i, j);
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Scalar faceArea = face.area();
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if (std::abs(faceArea*getValue(trans)) < 1e-18)
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continue;
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// determine the maximum difference of the pressure of any phase over the
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// intersection
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Scalar pth = 0.0;
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const auto& extQuants = elemCtx.extensiveQuantities(scvfIdx, /*timeIdx=*/0);
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for (unsigned phaseIdx = 0; phaseIdx < numPhases; ++phaseIdx) {
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unsigned upIdx = extQuants.upstreamIndex(phaseIdx);
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const auto& up = elemCtx.intensiveQuantities(upIdx, /*timeIdx=*/0);
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if (up.mobility(phaseIdx) > 0.0) {
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Scalar phaseVal = Toolbox::value(extQuants.pressureDifference(phaseIdx));
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pth = std::max(pth, std::abs(phaseVal));
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}
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}
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int offset1 = equilRegionInside*this->numEquilRegions_ + equilRegionOutside;
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int offset2 = equilRegionOutside*this->numEquilRegions_ + equilRegionInside;
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this->thpresDefault_[offset1] = std::max(this->thpresDefault_[offset1], pth);
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this->thpresDefault_[offset2] = std::max(this->thpresDefault_[offset2], pth);
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}
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}
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// make sure that the threshold pressures is consistent for parallel
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// runs. (i.e. take the maximum of all processes)
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for (unsigned i = 0; i < this->thpresDefault_.size(); ++i)
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this->thpresDefault_[i] = gridView.comm().max(this->thpresDefault_[i]);
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this->logPressures();
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}
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const Simulator& simulator_;
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};
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} // namespace Opm
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#endif
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