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https://github.com/OPM/opm-simulators.git
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597a2cc7af
The following changes are made: - The SurfaceComponent enum has been removed. - Added new member Wells::number_of_phases. - The Wells::zfrac member has been replaced with comp_frac. The old zfrac always had 3 components per well (accessed according to the canonical ordering given by SurfaceComponent), the new one has number_of_phases components per well. - Changed add_well() accordingly to accept comp_frac. - Added new member WellControls::distr, giving distributions for rate controls. - All functions dealing with well controls now take Wells* and a well index instead of directly taking WellControls*. - Now append_well_controls() also takes a rate distribution argument. - Added new public function set_current_control().
240 lines
9.3 KiB
C
240 lines
9.3 KiB
C
/*
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Copyright 2012 SINTEF ICT, Applied Mathematics.
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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_NEWWELLS_H_INCLUDED
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#define OPM_NEWWELLS_H_INCLUDED
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/**
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* \file
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*
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* Main OPM-Core well data structure along with functions
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* to create, populate and destroy it.
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*/
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#ifdef __cplusplus
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extern "C" {
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#endif
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/** Well type indicates desired/expected well behaviour. */
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enum WellType { INJECTOR, PRODUCER };
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/** Type of well control equation or inequality constraint.
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* BHP -> Well constrained by bottom-hole pressure target.
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* RESERVOIR_RATE -> Well constrained by reservoir volume flow rates.
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* SURFACE_RATE -> Well constrained by surface volume flow rates.
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*/
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enum WellControlType { BHP, RESERVOIR_RATE, SURFACE_RATE };
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/** Controls for a single well.
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* Each control specifies a well rate or bottom-hole pressure. Only
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* one control can be active at a time, indicated by current. The
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* meaning of each control's target value depends on the control type:
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* BHP -> target pressure in Pascal.
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* RESERVOIR_RATE -> target reservoir volume rate in cubic(meter)/second
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* SURFACE_RATE -> target surface volume rate in cubic(meter)/second
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* The sign convention for RATE targets is as follows:
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* (+) Fluid flowing into reservoir, i.e. injecting.
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* (-) Fluid flowing out of reservoir, i.e. producing.
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* For *_RATE controls, the distribution of phases used for the control
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* is also needed. For example, a total rate control should have 1.0
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* for each phase, whereas a control on oil rate should have 1.0 for
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* the oil phase and 0.0 for the rest. For BHP controls, this is unused.
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* The active control acts as an equality constraint, whereas the
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* non-active controls should be interpreted as inequality
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* constraints (upper or lower bounds). For instance, a PRODUCER's
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* BHP constraint defines a minimum acceptable bottom-hole pressure
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* value for the well.
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*/
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struct WellControls
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{
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int num; /** Number of controls. */
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enum WellControlType *type; /** Array of control types.*/
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double *target; /** Array of control targets */
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double *distr; /** Array of rate control distributions,
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Wells::number_of_phases numbers per well */
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int current; /** Index of current active control. */
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void *data; /** Internal management structure. */
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};
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/** Data structure aggregating static information about all wells in a scenario. */
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struct Wells
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{
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int number_of_wells; /** Number of wells. */
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int number_of_phases; /** Number of phases. */
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enum WellType *type; /** Array of well types. */
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double *depth_ref; /** Array of well bhp reference depths. */
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double *comp_frac; /** Component fractions for each well, size is (number_of_wells*number_of_phases).
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* This is intended to be used for injection wells. For production wells
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* the component fractions will vary and cannot be specified a priori.
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*/
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int *well_connpos; /** Array of indices into well_cells (and WI).
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* For a well w, well_connpos[w] and well_connpos[w+1] yield
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* start and one-beyond-end indices into the well_cells array
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* for accessing w's perforation cell indices.
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*/
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int *well_cells; /** Array of perforation cell indices.
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* Size is number of perforations (== well_connpos[number_of_wells]).
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*/
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double *WI; /** Well productivity index, same size and structure as well_cells. */
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struct WellControls **ctrls; /** Well controls, one set of controls for each well. */
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void *data; /** Internal management structure. */
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};
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/** Data structure aggregating dynamic information about all wells in a scenario.
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* All arrays in this structure contain data for each perforation,
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* ordered the same as Wells::well_cells and Wells:WI. The array
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* sizes are, respectively,
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*
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* gpot n*NP
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* A n²*NP (matrix in column-major (i.e., Fortran) order).
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* phasemob n*NP
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*
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* in which "n" denotes the number of active fluid phases (and
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* constituent components) and "NP" is the total number of
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* perforations, <CODE>well_connpos[ number_of_wells ]</CODE>.
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*/
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struct CompletionData
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{
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double *gpot; /** Gravity potentials. */
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double *A; /** Volumes to surface-components matrix, A = RB^{-1}. */
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double *phasemob; /** Phase mobilities. */
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};
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/**
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* Construct a Wells object initially capable of managing a given
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* number of wells and total number of well connections
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* (perforations).
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*
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* Function add_well() is used to populate the Wells object. No
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* reallocation occurs in function add_well() as long as the
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* initially indicated capacities are sufficient. Call function
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* destroy_wells() to dispose of the Wells object and its allocated
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* memory resources.
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*
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* \param[in] nphases Number of active phases in simulation scenario.
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*
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* \param[in] nwells Expected number of wells in simulation scenario.
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* Pass zero if the total number of wells is unknown.
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*
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* \param[in] nperf Expected total number of well connections
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* (perforations) for all wells in simulation
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* scenario. Pass zero if the total number of well
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* connections is unknown.
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*
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* \return A valid Wells object with no wells if successful, and NULL
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* otherwise.
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*/
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struct Wells *
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create_wells(int nphases, int nwells, int nperf);
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/**
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* Append a new well to an existing Wells object.
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*
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* Increments W->number_of_wells by one if successful. The new well
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* does not include operational constraints. Such information is
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* specified using function append_well_controls(). The current
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* control index is set to -1 (invalid).
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*
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* \param[in] type Type of well.
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* \param[in] depth_ref Reference depth for well's BHP.
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* \param[in] nperf Number of perforations.
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* \param[in] comp_frac Injection fraction array (size equal to W->number_of_phases) or NULL.
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* \param[in] cells Grid cells in which well is perforated. Should
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* ideally be track ordered.
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* \param[in] WI Well production index per perforation, or NULL.
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* \param[in,out] W Existing set of wells to which new well will
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* be added.
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*
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* \return Non-zero (true) if successful and zero otherwise.
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*/
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int
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add_well(enum WellType type ,
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double depth_ref,
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int nperf ,
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const double *comp_frac,
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const int *cells ,
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const double *WI ,
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struct Wells *W );
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/**
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* Append operational constraint to an existing well.
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*
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* Increments ctrl->num by one if successful. Introducing a new
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* operational constraint does not affect the well's notion of the
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* currently active constraint represented by ctrl->current.
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* Note that *_RATE controls now require a phase distribution array
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* to be associated with the control, see WellControls.
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*
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* \param[in] type Control type.
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* \param[in] target Target value for the control.
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* \param[in] distr Array of size W->number_of_phases or NULL.
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* \param[in] well_index Index of well to receive additional control.
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* \param[in,out] W Existing set of well controls.
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* \return Non-zero (true) if successful and zero (false) otherwise.
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*/
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int
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append_well_controls(enum WellControlType type ,
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double target,
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const double *distr,
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int well_index,
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struct Wells *W);
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/**
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* Set the current control for a single well.
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*/
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void
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set_current_control(int well_index, int current_control, struct Wells *W);
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/**
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* Clear all controls from a single well.
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*
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* Does not affect the control set capacity. */
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void
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clear_well_controls(int well_index, struct Wells *W);
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/**
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* Wells object destructor.
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*
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* Disposes of all resources managed by the Wells object.
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*
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* The Wells object must be built using function create_wells() and
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* subsequently populated using function add_well().
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*/
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void
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destroy_wells(struct Wells *W);
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#ifdef __cplusplus
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}
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#endif
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#endif /* OPM_NEWWELLS_H_INCLUDED */
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