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47c7c54548
instead of having two of them in StandardWell and MultisegmentWell
315 lines
11 KiB
C++
315 lines
11 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_WELLINTERFACE_HEADER_INCLUDED
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#define OPM_WELLINTERFACE_HEADER_INCLUDED
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#include <opm/common/OpmLog/OpmLog.hpp>
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#include <opm/parser/eclipse/EclipseState/Schedule/Well.hpp>
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#include <opm/core/wells.h>
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#include <opm/core/well_controls.h>
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#include <opm/core/props/BlackoilPhases.hpp>
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#include <opm/core/wells/WellsManager.hpp>
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#include <opm/autodiff/VFPProperties.hpp>
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#include <opm/autodiff/VFPInjProperties.hpp>
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#include <opm/autodiff/VFPProdProperties.hpp>
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#include <opm/autodiff/WellHelpers.hpp>
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#include <opm/autodiff/WellStateFullyImplicitBlackoil.hpp>
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#include <opm/autodiff/BlackoilModelParameters.hpp>
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#include <opm/simulators/WellSwitchingLogger.hpp>
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#include<dune/common/fmatrix.hh>
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#include<dune/istl/bcrsmatrix.hh>
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#include<dune/istl/matrixmatrix.hh>
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#include <opm/material/densead/Math.hpp>
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#include <opm/material/densead/Evaluation.hpp>
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#include <string>
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#include <memory>
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#include <vector>
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#include <cassert>
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namespace Opm
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{
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template<typename TypeTag>
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class WellInterface
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{
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public:
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using WellState = WellStateFullyImplicitBlackoil;
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typedef BlackoilModelParameters ModelParameters;
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typedef typename GET_PROP_TYPE(TypeTag, Grid) Grid;
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typedef typename GET_PROP_TYPE(TypeTag, Simulator) Simulator;
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typedef typename GET_PROP_TYPE(TypeTag, FluidSystem) FluidSystem;
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typedef typename GET_PROP_TYPE(TypeTag, Indices) BlackoilIndices;
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typedef typename GET_PROP_TYPE(TypeTag, IntensiveQuantities) IntensiveQuantities;
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typedef typename GET_PROP_TYPE(TypeTag, MaterialLaw) MaterialLaw;
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static const int numEq = BlackoilIndices::numEq;
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typedef double Scalar;
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typedef Dune::FieldVector<Scalar, numEq > VectorBlockType;
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typedef Dune::FieldMatrix<Scalar, numEq, numEq > MatrixBlockType;
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typedef Dune::BCRSMatrix <MatrixBlockType> Mat;
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typedef Dune::BlockVector<VectorBlockType> BVector;
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typedef DenseAd::Evaluation<double, /*size=*/numEq> Eval;
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typedef Ewoms::BlackOilPolymerModule<TypeTag> PolymerModule;
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static const bool has_solvent = GET_PROP_VALUE(TypeTag, EnableSolvent);
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static const bool has_polymer = GET_PROP_VALUE(TypeTag, EnablePolymer);
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/// Constructor
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WellInterface(const Well* well, const int time_step, const Wells* wells);
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/// Virutal destructor
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virtual ~WellInterface() {}
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/// Well name.
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const std::string& name() const;
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/// Well cells.
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const std::vector<int>& cells() {return well_cells_; }
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/// Well type, INJECTOR or PRODUCER.
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WellType wellType() const;
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/// Well controls
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WellControls* wellControls() const;
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void setVFPProperties(const VFPProperties* vfp_properties_arg);
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virtual void init(const PhaseUsage* phase_usage_arg,
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const std::vector<bool>* active_arg,
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const std::vector<double>& depth_arg,
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const double gravity_arg,
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const int num_cells);
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virtual void initPrimaryVariablesEvaluation() const = 0;
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/// a struct to collect information about the convergence checking
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struct ConvergenceReport {
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struct ProblemWell {
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std::string well_name;
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std::string phase_name;
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};
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bool converged = true;
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bool nan_residual_found = false;
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std::vector<ProblemWell> nan_residual_wells;
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// We consider Inf is large residual here
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bool too_large_residual_found = false;
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std::vector<ProblemWell> too_large_residual_wells;
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ConvergenceReport& operator+=(const ConvergenceReport& rhs) {
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converged = converged && rhs.converged;
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nan_residual_found = nan_residual_found || rhs.nan_residual_found;
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if (rhs.nan_residual_found) {
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for (const ProblemWell& well : rhs.nan_residual_wells) {
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nan_residual_wells.push_back(well);
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}
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}
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too_large_residual_found = too_large_residual_found || rhs.too_large_residual_found;
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if (rhs.too_large_residual_found) {
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for (const ProblemWell& well : rhs.too_large_residual_wells) {
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too_large_residual_wells.push_back(well);
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}
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}
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return *this;
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}
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};
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virtual ConvergenceReport getWellConvergence(Simulator& ebosSimulator,
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const std::vector<double>& B_avg,
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const ModelParameters& param) const = 0;
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virtual void solveEqAndUpdateWellState(const ModelParameters& param,
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WellState& well_state) = 0;
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virtual void assembleWellEq(Simulator& ebosSimulator,
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const double dt,
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WellState& well_state,
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bool only_wells) = 0;
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void updateListEconLimited(const WellState& well_state,
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DynamicListEconLimited& list_econ_limited) const;
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void setWellEfficiencyFactor(const double efficiency_factor);
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void computeRepRadiusPerfLength(const Grid& grid, const std::map<int, int>& cartesian_to_compressed);
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/// using the solution x to recover the solution xw for wells and applying
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/// xw to update Well State
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virtual void recoverWellSolutionAndUpdateWellState(const BVector& x, const ModelParameters& param,
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WellState& well_state) const = 0;
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/// Ax = Ax - C D^-1 B x
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virtual void apply(const BVector& x, BVector& Ax) const = 0;
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/// r = r - C D^-1 Rw
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virtual void apply(BVector& r) const = 0;
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virtual void computeWellPotentials(const Simulator& ebosSimulator,
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const WellState& well_state,
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std::vector<double>& well_potentials) const = 0;
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virtual void computeAccumWell() = 0;
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// TODO: it should come with a different name
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// for MS well, the definition is different and should not use this name anymore
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virtual void computeWellConnectionPressures(const Simulator& ebosSimulator,
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const WellState& xw) = 0;
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virtual void updateWellStateWithTarget(const int current,
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WellState& xw) const = 0;
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void updateWellControl(WellState& xw,
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wellhelpers::WellSwitchingLogger& logger) const;
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virtual void updatePrimaryVariables(const WellState& well_state) const = 0;
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protected:
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// to indicate a invalid connection
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static const int INVALIDCONNECTION = -100000;
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const Well* well_ecl_;
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const int current_step_;
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// the index of well in Wells struct
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int index_of_well_;
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// well type
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// INJECTOR or PRODUCER
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enum WellType well_type_;
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// number of phases
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int number_of_phases_;
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// component fractions for each well
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// typically, it should apply to injection wells
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std::vector<double> comp_frac_;
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// controls for this well
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// TODO: later will check whehter to let it stay with pointer
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struct WellControls* well_controls_;
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// number of the perforations for this well
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int number_of_perforations_;
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// record the index of the first perforation
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// TODO: it might not be needed if we refactor WellState to be a vector
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// of states of individual well.
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int first_perf_;
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// well index for each perforation
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std::vector<double> well_index_;
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// TODO: it might should go to StandardWell
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// depth for each perforation
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std::vector<double> perf_depth_;
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// reference depth for the BHP
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double ref_depth_;
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double well_efficiency_factor_;
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// cell index for each well perforation
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std::vector<int> well_cells_;
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// saturation table nubmer for each well perforation
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std::vector<int> saturation_table_number_;
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// representative radius of the perforations, used in shear calculation
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std::vector<double> perf_rep_radius_;
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// length of the perforations, use in shear calculation
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std::vector<double> perf_length_;
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// well bore diameter
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std::vector<double> bore_diameters_;
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const PhaseUsage* phase_usage_;
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bool getAllowCrossFlow() const;
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const std::vector<bool>* active_;
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const VFPProperties* vfp_properties_;
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double gravity_;
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const std::vector<bool>& active() const;
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const PhaseUsage& phaseUsage() const;
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int flowPhaseToEbosCompIdx( const int phaseIdx ) const;
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int flowPhaseToEbosPhaseIdx( const int phaseIdx ) const;
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// TODO: it is dumplicated with StandardWellsDense
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int numComponents() const;
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double wsolvent() const;
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double wpolymer() const;
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bool checkRateEconLimits(const WellEconProductionLimits& econ_production_limits,
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const WellState& well_state) const;
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bool wellHasTHPConstraints() const;
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// Component fractions for each phase for the well
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const std::vector<double>& compFrac() const;
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double mostStrictBhpFromBhpLimits() const;
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// a tuple type for ratio limit check.
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// first value indicates whether ratio limit is violated, when the ratio limit is not violated, the following three
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// values should not be used.
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// second value indicates whehter there is only one connection left.
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// third value indicates the indx of the worst-offending connection.
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// the last value indicates the extent of the violation for the worst-offending connection, which is defined by
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// the ratio of the actual value to the value of the violated limit.
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using RatioCheckTuple = std::tuple<bool, bool, int, double>;
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RatioCheckTuple checkMaxWaterCutLimit(const WellEconProductionLimits& econ_production_limits,
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const WellState& well_state) const;
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RatioCheckTuple checkRatioEconLimits(const WellEconProductionLimits& econ_production_limits,
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const WellState& well_state) const;
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};
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}
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#include "WellInterface_impl.hpp"
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#endif // OPM_WELLINTERFACE_HEADER_INCLUDED
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