opm-simulators/opm/simulators/wells/MultisegmentWell.hpp

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/*
Copyright 2017 SINTEF Digital, Mathematics and Cybernetics.
Copyright 2017 Statoil ASA.
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 3 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/>.
*/
#ifndef OPM_MULTISEGMENTWELL_HEADER_INCLUDED
#define OPM_MULTISEGMENTWELL_HEADER_INCLUDED
#include <opm/simulators/wells/WellInterface.hpp>
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#include <opm/simulators/wells/MultisegmentWellEval.hpp>
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namespace Opm
{
class DeferredLogger;
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template<typename TypeTag>
class MultisegmentWell : public WellInterface<TypeTag>
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, public MultisegmentWellEval<GetPropType<TypeTag, Properties::FluidSystem>,
GetPropType<TypeTag, Properties::Indices>,
GetPropType<TypeTag, Properties::Scalar>>
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{
public:
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using Base = WellInterface<TypeTag>;
using MSWEval = MultisegmentWellEval<GetPropType<TypeTag, Properties::FluidSystem>,
GetPropType<TypeTag, Properties::Indices>,
GetPropType<TypeTag, Properties::Scalar>>;
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using typename Base::Simulator;
using typename Base::IntensiveQuantities;
using typename Base::FluidSystem;
using typename Base::ModelParameters;
using typename Base::MaterialLaw;
using typename Base::Indices;
using typename Base::RateConverterType;
using typename Base::SparseMatrixAdapter;
using typename Base::FluidState;
using Base::has_solvent;
using Base::has_polymer;
using Base::Water;
using Base::Oil;
using Base::Gas;
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using typename Base::Scalar;
/// the matrix and vector types for the reservoir
using typename Base::BVector;
using typename Base::Eval;
using typename MSWEval::Equations;
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using typename MSWEval::EvalWell;
using typename MSWEval::BVectorWell;
using MSWEval::SPres;
using typename Base::PressureMatrix;
MultisegmentWell(const Well& well,
const ParallelWellInfo& pw_info,
const int time_step,
const ModelParameters& param,
const RateConverterType& rate_converter,
const int pvtRegionIdx,
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const int num_components,
const int num_phases,
const int index_of_well,
const std::vector<PerforationData>& perf_data);
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virtual void init(const PhaseUsage* phase_usage_arg,
const std::vector<double>& depth_arg,
const double gravity_arg,
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const int num_cells,
const std::vector< Scalar >& B_avg,
const bool changed_to_open_this_step) override;
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void initPrimaryVariablesEvaluation() override;
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/// updating the well state based the current control mode
virtual void updateWellStateWithTarget(const Simulator& ebos_simulator,
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const GroupState& group_state,
WellState& well_state,
DeferredLogger& deferred_logger) const override;
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/// check whether the well equations get converged for this well
virtual ConvergenceReport getWellConvergence(const SummaryState& summary_state,
const WellState& well_state,
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const std::vector<double>& B_avg,
DeferredLogger& deferred_logger,
const bool relax_tolerance) const override;
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/// Ax = Ax - C D^-1 B x
virtual void apply(const BVector& x, BVector& Ax) const override;
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/// r = r - C D^-1 Rw
virtual void apply(BVector& r) const override;
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/// using the solution x to recover the solution xw for wells and applying
/// xw to update Well State
void recoverWellSolutionAndUpdateWellState(const SummaryState& summary_state,
const BVector& x,
WellState& well_state,
DeferredLogger& deferred_logger) override;
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/// computing the well potentials for group control
virtual void computeWellPotentials(const Simulator& ebosSimulator,
const WellState& well_state,
std::vector<double>& well_potentials,
DeferredLogger& deferred_logger) override;
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void updatePrimaryVariables(const SummaryState& summary_state,
const WellState& well_state,
DeferredLogger& deferred_logger) override;
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virtual void solveEqAndUpdateWellState(const SummaryState& summary_state,
WellState& well_state,
DeferredLogger& deferred_logger) override; // const?
virtual void calculateExplicitQuantities(const Simulator& ebosSimulator,
const WellState& well_state,
DeferredLogger& deferred_logger) override; // should be const?
virtual void updateProductivityIndex(const Simulator& ebosSimulator,
const WellProdIndexCalculator& wellPICalc,
WellState& well_state,
DeferredLogger& deferred_logger) const override;
void addWellContributions(SparseMatrixAdapter& jacobian) const override;
void addWellPressureEquations(PressureMatrix& mat,
const BVector& x,
const int pressureVarIndex,
const bool use_well_weights,
const WellState& well_state) const override;
virtual std::vector<double> computeCurrentWellRates(const Simulator& ebosSimulator,
DeferredLogger& deferred_logger) const override;
void computeConnLevelProdInd(const FluidState& fs,
const std::function<double(const double)>& connPICalc,
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const std::vector<Scalar>& mobility,
double* connPI) const;
void computeConnLevelInjInd(const FluidState& fs,
const Phase preferred_phase,
const std::function<double(const double)>& connIICalc,
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const std::vector<Scalar>& mobility,
double* connII,
DeferredLogger& deferred_logger) const;
std::optional<double>
computeBhpAtThpLimitProdWithAlq(const Simulator& ebos_simulator,
const SummaryState& summary_state,
const double alq_value,
DeferredLogger& deferred_logger) const override;
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protected:
// regularize msw equation
bool regularize_;
// the intial amount of fluids in each segment under surface condition
std::vector<std::vector<double> > segment_fluid_initial_;
mutable int debug_cost_counter_ = 0;
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// updating the well_state based on well solution dwells
void updateWellState(const SummaryState& summary_state,
const BVectorWell& dwells,
WellState& well_state,
DeferredLogger& deferred_logger,
const double relaxation_factor = 1.0);
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// computing the accumulation term for later use in well mass equations
void computeInitialSegmentFluids(const Simulator& ebos_simulator);
// compute the pressure difference between the perforation and cell center
void computePerfCellPressDiffs(const Simulator& ebosSimulator);
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void computePerfRateScalar(const IntensiveQuantities& int_quants,
const std::vector<Scalar>& mob_perfcells,
const double Tw,
const int seg,
const int perf,
const Scalar& segment_pressure,
const bool& allow_cf,
std::vector<Scalar>& cq_s,
DeferredLogger& deferred_logger) const;
void computePerfRateEval(const IntensiveQuantities& int_quants,
const std::vector<EvalWell>& mob_perfcells,
const double Tw,
const int seg,
const int perf,
const EvalWell& segment_pressure,
const bool& allow_cf,
std::vector<EvalWell>& cq_s,
EvalWell& perf_press,
PerforationRates& perf_rates,
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DeferredLogger& deferred_logger) const;
template<class Value>
void computePerfRate(const Value& pressure_cell,
const Value& rs,
const Value& rv,
const std::vector<Value>& b_perfcells,
const std::vector<Value>& mob_perfcells,
const double Tw,
const int perf,
const Value& segment_pressure,
const Value& segment_density,
const bool& allow_cf,
const std::vector<Value>& cmix_s,
std::vector<Value>& cq_s,
Value& perf_press,
PerforationRates& perf_rates,
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DeferredLogger& deferred_logger) const;
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// compute the fluid properties, such as densities, viscosities, and so on, in the segments
// They will be treated implicitly, so they need to be of Evaluation type
void computeSegmentFluidProperties(const Simulator& ebosSimulator,
DeferredLogger& deferred_logger);
// get the mobility for specific perforation
template<class Value>
void getMobility(const Simulator& ebosSimulator,
const int perf,
std::vector<Value>& mob,
DeferredLogger& deferred_logger) const;
void computeWellRatesAtBhpLimit(const Simulator& ebosSimulator,
std::vector<double>& well_flux,
DeferredLogger& deferred_logger) const;
virtual void computeWellRatesWithBhp(const Simulator& ebosSimulator,
const double& bhp,
std::vector<double>& well_flux,
DeferredLogger& deferred_logger) const override;
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void computeWellRatesWithBhpIterations(const Simulator& ebosSimulator,
const Scalar& bhp,
std::vector<double>& well_flux,
DeferredLogger& deferred_logger) const;
std::vector<double> computeWellPotentialWithTHP(
const WellState& well_state,
const Simulator& ebos_simulator,
DeferredLogger& deferred_logger) const;
bool updateWellStateWithTHPTargetProd(const Simulator& ebos_simulator,
WellState& well_state,
DeferredLogger& deferred_logger) const override;
virtual double getRefDensity() const override;
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virtual bool iterateWellEqWithControl(const Simulator& ebosSimulator,
const double dt,
const Well::InjectionControls& inj_controls,
const Well::ProductionControls& prod_controls,
WellState& well_state,
const GroupState& group_state,
DeferredLogger& deferred_logger) override;
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virtual void assembleWellEqWithoutIteration(const Simulator& ebosSimulator,
const double dt,
const Well::InjectionControls& inj_controls,
const Well::ProductionControls& prod_controls,
WellState& well_state,
const GroupState& group_state,
DeferredLogger& deferred_logger) override;
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virtual void updateWaterThroughput(const double dt, WellState& well_state) const override;
EvalWell getSegmentSurfaceVolume(const Simulator& ebos_simulator, const int seg_idx) const;
// turn on crossflow to avoid singular well equations
// when the well is banned from cross-flow and the BHP is not properly initialized,
// we turn on crossflow to avoid singular well equations. It can result in wrong-signed
// well rates, it can cause problem for THP calculation
// TODO: looking for better alternative to avoid wrong-signed well rates
bool openCrossFlowAvoidSingularity(const Simulator& ebos_simulator) const;
// for a well, when all drawdown are in the wrong direction, then this well will not
// be able to produce/inject .
bool allDrawDownWrongDirection(const Simulator& ebos_simulator) const;
std::optional<double> computeBhpAtThpLimitProd(
const WellState& well_state,
const Simulator& ebos_simulator,
const SummaryState& summary_state,
DeferredLogger& deferred_logger) const;
std::optional<double> computeBhpAtThpLimitInj(const Simulator& ebos_simulator,
const SummaryState& summary_state,
DeferredLogger& deferred_logger) const;
double maxPerfPress(const Simulator& ebos_simulator) const;
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// check whether the well is operable under BHP limit with current reservoir condition
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virtual void checkOperabilityUnderBHPLimit(const WellState& well_state, const Simulator& ebos_simulator, DeferredLogger& deferred_logger) override;
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// check whether the well is operable under THP limit with current reservoir condition
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virtual void checkOperabilityUnderTHPLimit(const Simulator& ebos_simulator, const WellState& well_state, DeferredLogger& deferred_logger) override;
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// updating the inflow based on the current reservoir condition
virtual void updateIPR(const Simulator& ebos_simulator, DeferredLogger& deferred_logger) const override;
};
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}
#include "MultisegmentWell_impl.hpp"
#endif // OPM_MULTISEGMENTWELL_HEADER_INCLUDED