mirror of
https://github.com/OPM/opm-simulators.git
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162 lines
6.3 KiB
C++
162 lines
6.3 KiB
C++
/*
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Copyright 2017 SINTEF Digital, Mathematics and Cybernetics.
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Copyright 2017 Statoil ASA.
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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 3 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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*/
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#ifndef OPM_MULTISEGMENTWELL_PRIMARY_VARIABLES_HEADER_INCLUDED
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#define OPM_MULTISEGMENTWELL_PRIMARY_VARIABLES_HEADER_INCLUDED
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#include <opm/material/densead/Evaluation.hpp>
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#include <opm/simulators/wells/MultisegmentWellEquations.hpp>
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#include <array>
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#include <vector>
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namespace Opm
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{
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class DeferredLogger;
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template<class Scalar> class MultisegmentWellGeneric;
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template<class FluidSystem, class Indices, class Scalar> class WellInterfaceIndices;
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class WellState;
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template<class FluidSystem, class Indices, class Scalar>
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class MultisegmentWellPrimaryVariables
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{
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public:
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// TODO: for now, not considering the polymer, solvent and so on to simplify the development process.
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// TODO: we need to have order for the primary variables and also the order for the well equations.
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// sometimes, they are similar, while sometimes, they can have very different forms.
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// Table showing the primary variable indices, depending on what phases are present:
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//
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// WOG OG WG WO W/O/G (single phase)
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// WQTotal 0 0 0 0 0
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// WFrac 1 -1000 1 1 -1000
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// GFrac 2 1 -1000 -1000 -1000
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// Spres 3 2 2 2 1
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static constexpr bool has_water = (Indices::waterSwitchIdx >= 0);
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static constexpr bool has_gas = (Indices::compositionSwitchIdx >= 0);
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static constexpr bool has_oil = (Indices::numPhases - has_gas - has_water) > 0;
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// In the implementation, one should use has_wfrac_variable
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// rather than has_water to check if you should do something
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// with the variable at the WFrac location, similar for GFrac.
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static constexpr bool has_wfrac_variable = has_water && Indices::numPhases > 1;
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static constexpr bool has_gfrac_variable = has_gas && has_oil;
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static constexpr int WQTotal = 0;
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static constexpr int WFrac = has_wfrac_variable ? 1 : -1000;
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static constexpr int GFrac = has_gfrac_variable ? has_wfrac_variable + 1 : -1000;
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static constexpr int SPres = has_wfrac_variable + has_gfrac_variable + 1;
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// the number of well equations TODO: it should have a more general strategy for it
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static constexpr int numWellEq = Indices::numPhases + 1;
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using EvalWell = DenseAd::Evaluation<double, /*size=*/Indices::numEq + numWellEq>;
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using Equations = MultisegmentWellEquations<Scalar,numWellEq,Indices::numEq>;
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using BVectorWell = typename Equations::BVectorWell;
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MultisegmentWellPrimaryVariables(const WellInterfaceIndices<FluidSystem,Indices,Scalar>& well)
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: well_(well)
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{}
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//! \brief Resize values and evaluations.
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void resize(const int numSegments);
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//! \brief Initialize evaluations from values.
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void init();
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//! \brief Copy values from well state.
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void update(const WellState& well_state);
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//! \brief Update values from newton update vector.
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void updateNewton(const BVectorWell& dwells,
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const double relaxation_factor,
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const double DFLimit,
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const double max_pressure_change);
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//! \brief Copy values to well state.
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void copyToWellState(const MultisegmentWellGeneric<Scalar>& mswell,
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const double rho,
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WellState& well_state,
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DeferredLogger& deferred_logger) const;
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//! \brief Returns scaled volume fraction for a component in a segment.
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//! \details F_p / g_p, the basic usage of this value is because Q_p = G_t * F_p / G_p
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EvalWell volumeFractionScaled(const int seg,
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const int compIdx) const;
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//! \brief Returns surface volume fraction for a component in a segment.
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//! \details basically Q_p / \sigma_p Q_p
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EvalWell surfaceVolumeFraction(const int seg,
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const int compIdx) const;
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//! \brief Returns upwinding rate for a component in a segment.
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EvalWell getSegmentRateUpwinding(const int seg,
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const int seg_upwind,
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const size_t comp_idx) const;
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//! \brief Get bottomhole pressure.
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EvalWell getBhp() const;
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//! \brief Get pressure for a segment.
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EvalWell getSegmentPressure(const int seg) const;
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//! \brief Get rate for a component in a segment.
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EvalWell getSegmentRate(const int seg,
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const int comp_idx) const;
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//! \brief Returns scaled rate for a component.
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EvalWell getQs(const int comp_idx) const;
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//! \brief Get WQTotal.
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EvalWell getWQTotal() const;
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//! \brief Returns a const ref to an evaluation.
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const std::array<EvalWell,numWellEq>& eval(const int idx) const
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{ return evaluation_[idx]; }
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private:
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//! \brief Handle non-reasonable fractions due to numerical overshoot.
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void processFractions(const int seg);
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//! \brief Returns volume fraction for component in a segment.
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EvalWell volumeFraction(const int seg,
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const unsigned compIdx) const;
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//! \brief The values for the primary variables
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//! \details Based on different solution strategies, the wells can have different primary variables
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std::vector<std::array<double, numWellEq>> value_;
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//! \brief The Evaluation for the well primary variables.
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//! \details Contains derivatives and are used in AD calculation
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std::vector<std::array<EvalWell, numWellEq>> evaluation_;
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const WellInterfaceIndices<FluidSystem,Indices,Scalar>& well_; //!< Reference to well interface
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};
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}
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#endif // OPM_MULTISEGMENTWELL_PRIMARY_VARIABLES_HEADER_INCLUDED
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