This is needed to get consistent estimates for the summary vectors
* {F,G,W}OP{R,T}{F,S} -- Free/Vaporized Oil Production
* {F,G,W}GP{R,T}{F,S} -- Free/Dissolved Gas Production
in the case of distributed wells.
Thanks to [at]blattms for the suggested fix.
Refactors getOilRateWithLimit_(), getGasRateWithLimit_(), and
getWaterRateWithLimit_() in GasLiftSingleWellGeneric.cpp. The
common part of the methods is split out into a new method called
getRateWithLimit_(). The purpose of the refactorization is to reduce
reptetive code and make the code easier to maintain.
This is in agreement with C++ Core Guidelines. A member function should
be marked const unless it changes the object’s observable state. This
gives a more precise statement of design intent, better readability, more
errors caught by the compiler, and sometimes more optimization opportunities.
Refactor getOilRateWithGroupLimit_(), getGasRateWithGroupLimit_(),
getWaterRateWithGroupLimit_(), and getLiquidRateWithGroupLimit_() into
a single generic method called getRateWithGroupLimit_().
Consider all groups when reducing oil rate to group limits.
The current code just checks the first group limit in the set.
But there might be groups later in the set with more restrictive
limits, causing the oil rate to be reduced more than the first
limit.
As discussed in PR #3728, it is better to move the two methods
reduceALQtoGroupTarget() and checkGroupTargetsViolated() from
OptimizeState to the parent class, then we do not have to abuse
OptimizeState in maybeAdjustALQbeforeOptimizeLoop_() just to call
reduceALQtoGroupTarget().
Also fixes a typo (as discussed in PR #3729) in reduceALQtoGrouptTarget()
where the water rate is updated with the gas flow rate instead of the
water flow rate. Should be like this:
water_rate = -potentials[this->parent.water_pos_];
instead of
water_rate = -potentials[this->parent.gas_pos_];
The cell pressure is independent of well model and belongs to the interface
This should move the MSW model one step closer to supporting GasWater cases
If a well is shut due to physical or economical reason the wellstate status is shut
so we can not check the wellstate we instead check the well from the schedule to
make sure we don't test wells that are shut by the user.
