opm-simulators/opm/simulators/wells/WellState.hpp

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/*
Copyright 2014 SINTEF ICT, Applied Mathematics.
Copyright 2017 IRIS AS
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_WELLSTATEFULLYIMPLICITBLACKOIL_HEADER_INCLUDED
#define OPM_WELLSTATEFULLYIMPLICITBLACKOIL_HEADER_INCLUDED
#include <opm/simulators/wells/ALQState.hpp>
#include <opm/simulators/wells/GlobalWellInfo.hpp>
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#include <opm/simulators/wells/SegmentState.hpp>
#include <opm/simulators/wells/WellContainer.hpp>
#include <opm/core/props/BlackoilPhases.hpp>
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#include <opm/simulators/wells/PerforationData.hpp>
#include <opm/simulators/wells/PerfData.hpp>
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#include <opm/output/data/Wells.hpp>
#include <opm/parser/eclipse/EclipseState/Schedule/Events.hpp>
#include <opm/parser/eclipse/EclipseState/Schedule/Well/Well.hpp>
#include <functional>
#include <map>
#include <optional>
#include <string>
#include <utility>
#include <vector>
namespace Opm
{
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class ParallelWellInfo;
class Schedule;
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/// The state of a set of wells, tailored for use by the fully
/// implicit blackoil simulator.
class WellState
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{
public:
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using mapentry_t = std::array<int, 3>;
using WellMapType = std::map<std::string, mapentry_t>;
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static const uint64_t event_mask = ScheduleEvents::WELL_STATUS_CHANGE + ScheduleEvents::PRODUCTION_UPDATE + ScheduleEvents::INJECTION_UPDATE;
virtual ~WellState() = default;
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// TODO: same definition with WellInterface, eventually they should go to a common header file.
static const int Water = BlackoilPhases::Aqua;
static const int Oil = BlackoilPhases::Liquid;
static const int Gas = BlackoilPhases::Vapour;
explicit WellState(const PhaseUsage& pu)
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{
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this->phase_usage_ = pu;
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}
const WellMapType& wellMap() const { return wellMap_; }
WellMapType& wellMap() { return wellMap_; }
int numWells() const
{
return wellMap_.size();
}
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const ParallelWellInfo& parallelWellInfo(std::size_t well_index) const;
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/// Allocate and initialize if wells is non-null. Also tries
/// to give useful initial values to the bhp(), wellRates()
/// and perfPhaseRatesORG() fields, depending on controls
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void init(const std::vector<double>& cellPressures,
const Schedule& schedule,
const std::vector<Well>& wells_ecl,
const std::vector<ParallelWellInfo*>& parallel_well_info,
const int report_step,
const WellState* prevState,
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const std::vector<std::vector<PerforationData>>& well_perf_data,
const SummaryState& summary_state);
void resize(const std::vector<Well>& wells_ecl,
const std::vector<ParallelWellInfo*>& parallel_well_info,
const Schedule& schedule,
const bool handle_ms_well,
const size_t numCells,
const std::vector<std::vector<PerforationData>>& well_perf_data,
const SummaryState& summary_state);
/// One current control per injecting well.
Well::InjectorCMode currentInjectionControl(std::size_t well_index) const { return current_injection_controls_[well_index]; }
void currentInjectionControl(std::size_t well_index, Well::InjectorCMode cmode) { current_injection_controls_[well_index] = cmode; }
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/// One current control per producing well.
Well::ProducerCMode currentProductionControl(std::size_t well_index) const { return current_production_controls_[well_index]; }
void currentProductionControl(std::size_t well_index, Well::ProducerCMode cmode) { current_production_controls_[well_index] = cmode; }
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void setCurrentWellRates(const std::string& wellName, const std::vector<double>& new_rates ) {
auto& [owner, rates] = this->well_rates.at(wellName);
if (owner)
rates = new_rates;
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}
const std::vector<double>& currentWellRates(const std::string& wellName) const;
bool hasWellRates(const std::string& wellName) const {
return this->well_rates.find(wellName) != this->well_rates.end();
}
template<class Communication>
void gatherVectorsOnRoot(const std::vector< data::Connection >& from_connections,
std::vector< data::Connection >& to_connections,
const Communication& comm) const;
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data::Wells
report(const int* globalCellIdxMap,
const std::function<bool(const int)>& wasDynamicallyClosed) const;
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void reportConnections(std::vector<data::Connection>& connections, const PhaseUsage &pu,
std::size_t well_index,
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const int* globalCellIdxMap) const;
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/// init the MS well related.
void initWellStateMSWell(const std::vector<Well>& wells_ecl,
const WellState* prev_well_state);
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static void calculateSegmentRates(const std::vector<std::vector<int>>& segment_inlets, const std::vector<std::vector<int>>&segment_perforations,
const std::vector<double>& perforation_rates, const int np, const int segment, std::vector<double>& segment_rates);
Events& events(std::size_t well_index) {
return this->events_[well_index];
}
/// One rate pr well
double solventWellRate(const int w) const;
/// One rate pr well
double polymerWellRate(const int w) const;
/// One rate pr well
double brineWellRate(const int w) const;
const WellContainer<std::vector<double>>& wellReservoirRates() const { return well_reservoir_rates_; }
std::vector<double>& wellReservoirRates(std::size_t well_index)
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{
return well_reservoir_rates_[well_index];
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}
const std::vector<double>& wellReservoirRates(std::size_t well_index) const
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{
return well_reservoir_rates_[well_index];
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}
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double& wellDissolvedGasRates(std::size_t well_index)
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{
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return well_dissolved_gas_rates_[well_index];
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}
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double& wellVaporizedOilRates(std::size_t well_index)
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{
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return well_vaporized_oil_rates_[well_index];
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}
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const SegmentState& segments(const std::size_t well_index) const {
return this->segment_state[well_index];
}
SegmentState& segments(const std::size_t well_index) {
return this->segment_state[well_index];
}
const SegmentState& segments(const std::string& wname) const {
return this->segment_state[wname];
}
SegmentState& segments(const std::string& wname) {
return this->segment_state[wname];
}
std::vector<double>& productivityIndex(std::size_t well_index) {
return this->productivity_index_[well_index];
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}
const std::vector<double>& productivityIndex(std::size_t well_index) const {
return this->productivity_index_[well_index];
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}
std::vector<double>& wellPotentials(std::size_t well_index) {
return this->well_potentials_[well_index];
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}
const std::vector<double>& wellPotentials(std::size_t well_index) const {
return this->well_potentials_[well_index];
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}
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template<class Comm>
void communicateGroupRates(const Comm& comm);
template<class Comm>
void updateGlobalIsGrup(const Comm& comm);
bool isInjectionGrup(const std::string& name) const {
return this->global_well_info.value().in_injecting_group(name);
}
bool isProductionGrup(const std::string& name) const {
return this->global_well_info.value().in_producing_group(name);
}
double getALQ( const std::string& name) const
{
return this->alq_state.get(name);
}
void setALQ( const std::string& name, double value)
{
this->alq_state.set(name, value);
}
bool gliftCheckAlqOscillation(const std::string &name) const {
return this->alq_state.oscillation(name);
}
int gliftGetAlqDecreaseCount(const std::string &name) {
return this->alq_state.get_decrement_count(name);
}
int gliftGetAlqIncreaseCount(const std::string &name) {
return this->alq_state.get_increment_count(name);
}
void gliftUpdateAlqIncreaseCount(const std::string &name, bool increase) {
this->alq_state.update_count(name, increase);
}
bool gliftOptimizationEnabled() const {
return do_glift_optimization_;
}
void gliftTimeStepInit() {
this->alq_state.reset_count();
}
int wellNameToGlobalIdx(const std::string &name) {
return this->global_well_info.value().well_index(name);
}
std::string globalIdxToWellName(const int index) {
return this->global_well_info.value().well_name(index);
}
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bool wellIsOwned(std::size_t well_index,
const std::string& wellName) const;
bool wellIsOwned(const std::string& wellName) const;
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/// Special purpose method to support dynamically rescaling a well's
/// CTFs through WELPI.
///
/// \param[in] well_index Process-local linear index of single well.
/// Must be in the range 0..numWells()-1.
///
/// \param[in] well_perf_data New perforation data. Only
/// PerforationData::connection_transmissibility_factor actually
/// used (overwrites existing internal values).
void resetConnectionTransFactors(const int well_index,
const std::vector<PerforationData>& well_perf_data);
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void updateStatus(int well_index, Well::Status status);
void openWell(int well_index) {
this->status_[well_index] = Well::Status::OPEN;
}
void shutWell(int well_index);
void stopWell(int well_index);
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/// The number of phases present.
int numPhases() const
{
return this->phase_usage_.num_phases;
}
const PhaseUsage& phaseUsage() const {
return this->phase_usage_;
}
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/// One bhp pressure per well.
void update_bhp(std::size_t well_index, double value) { bhp_[well_index] = value; }
double bhp(std::size_t well_index) const { return bhp_[well_index]; }
/// One thp pressure per well.
void update_thp(std::size_t well_index, double value) { thp_[well_index] = value; }
double thp(std::size_t well_index) const { return thp_[well_index]; }
/// One temperature per well.
void update_temperature(std::size_t well_index, double value) { temperature_[well_index] = value; }
double temperature(std::size_t well_index) const { return temperature_[well_index]; }
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/// One rate per well and phase.
const WellContainer<std::vector<double>>& wellRates() const { return wellrates_; }
std::vector<double>& wellRates(std::size_t well_index) { return wellrates_[well_index]; }
const std::vector<double>& wellRates(std::size_t well_index) const { return wellrates_[well_index]; }
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std::size_t numPerf(std::size_t well_index) const { return this->perfdata[well_index].size(); }
PerfData& perfData(const std::string& wname) {
return this->perfdata[wname];
}
const PerfData& perfData(const std::string& wname) const {
return this->perfdata[wname];
}
PerfData& perfData(std::size_t well_index) {
return this->perfdata[well_index];
}
const PerfData& perfData(std::size_t well_index) const {
return this->perfdata[well_index];
}
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private:
WellMapType wellMap_;
// Use of std::optional<> here is a technical crutch, the
// WellStateFullyImplicitBlackoil class should be default constructible,
// whereas the GlobalWellInfo is not.
std::optional<GlobalWellInfo> global_well_info;
ALQState alq_state;
bool do_glift_optimization_;
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WellContainer<Well::Status> status_;
WellContainer<std::vector<PerforationData>> well_perf_data_;
WellContainer<const ParallelWellInfo*> parallel_well_info_;
WellContainer<double> bhp_;
WellContainer<double> thp_;
WellContainer<double> temperature_;
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WellContainer<std::vector<double>> wellrates_;
PhaseUsage phase_usage_;
WellContainer<PerfData> perfdata;
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WellContainer<int> is_producer_; // Size equal to number of local wells.
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// vector with size number of wells +1.
// iterate over all perforations of a given well
// for (int perf = first_perf_index_[well_index]; perf < first_perf_index_[well_index] + num_perf_[well_index]; ++perf)
WellContainer<Opm::Well::InjectorCMode> current_injection_controls_;
WellContainer<Well::ProducerCMode> current_production_controls_;
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// The well_rates variable is defined for all wells on all processors. The
// bool in the value pair is whether the current process owns the well or
// not.
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std::map<std::string, std::pair<bool, std::vector<double>>> well_rates;
// phase rates under reservoir condition for wells
// or voidage phase rates
WellContainer<std::vector<double>> well_reservoir_rates_;
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// dissolved gas rates or solution gas production rates
// should be zero for injection wells
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WellContainer<double> well_dissolved_gas_rates_;
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// vaporized oil rates or solution oil producation rates
// should be zero for injection wells
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WellContainer<double> well_vaporized_oil_rates_;
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// some events happens to the well, like this well is a new well
// or new well control keywords happens
// \Note: for now, only WCON* keywords, and well status change is considered
WellContainer<Events> events_;
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WellContainer<SegmentState> segment_state;
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// Productivity Index
WellContainer<std::vector<double>> productivity_index_;
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// Well potentials
WellContainer<std::vector<double>> well_potentials_;
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data::Segment
reportSegmentResults(const PhaseUsage& pu,
const int well_id,
const int seg_ix,
const int seg_no) const;
int numSegments(const int well_id) const;
int segmentNumber(const int well_id, const int seg_id) const;
// If the ALQ has changed since the previous report step,
// reset current_alq and update default_alq. ALQ is used for
// constant lift gas injection and for gas lift optimization
// (THP controlled wells).
//
// NOTE: If a well is no longer used (e.g. it is shut down)
// it is still kept in the maps "default_alq_" and "current_alq_". Since the
// number of unused entries should be small (negligible memory
// overhead) this is simpler than writing code to delete it.
//
void updateWellsDefaultALQ(const std::vector<Well>& wells_ecl);
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/// Allocate and initialize if wells is non-null.
/// Also tries to give useful initial values to the bhp() and
/// wellRates() fields, depending on controls. The
/// perfRates() field is filled with zero, and perfPress()
/// with -1e100.
void base_init(const std::vector<double>& cellPressures,
const std::vector<Well>& wells_ecl,
const std::vector<ParallelWellInfo*>& parallel_well_info,
const std::vector<std::vector<PerforationData>>& well_perf_data,
const SummaryState& summary_state);
void initSingleWell(const std::vector<double>& cellPressures,
const int w,
const Well& well,
const std::vector<PerforationData>& well_perf_data,
const ParallelWellInfo* well_info,
const SummaryState& summary_state);
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};
} // namespace Opm
#endif // OPM_WELLSTATEFULLYIMPLICITBLACKOIL_HEADER_INCLUDED