MultisegmentWell: move volumeFractionScaled to MultisegmentWellPrimaryVariables

opm/simulators/wells/MultisegmentWellEval.cpp

@@ -171,23 +171,6 @@ getWellConvergence(const WellState& well_state,
     return report;
 }
 
-template<typename FluidSystem, typename Indices, typename Scalar>
-typename MultisegmentWellEval<FluidSystem,Indices,Scalar>::EvalWell
-MultisegmentWellEval<FluidSystem,Indices,Scalar>::
-volumeFractionScaled(const int seg,
-                     const int comp_idx) const
-{
-    // For reservoir rate control, the distr in well control is used for the
-    // rate conversion coefficients. For the injection well, only the distr of the injection
-    // phase is not zero.
-    const double scale = baseif_.scalingFactor(baseif_.ebosCompIdxToFlowCompIdx(comp_idx));
-    if (scale > 0.) {
-        return primary_variables_.volumeFraction(seg, comp_idx) / scale;
-    }
-
-    return primary_variables_.volumeFraction(seg, comp_idx);
-}
-
 template<typename FluidSystem, typename Indices, typename Scalar>
 typename MultisegmentWellEval<FluidSystem,Indices,Scalar>::EvalWell
 MultisegmentWellEval<FluidSystem,Indices,Scalar>::
@@ -196,12 +179,12 @@ surfaceVolumeFraction(const int seg,
 {
     EvalWell sum_volume_fraction_scaled = 0.;
     for (int idx = 0; idx < baseif_.numComponents(); ++idx) {
-        sum_volume_fraction_scaled += volumeFractionScaled(seg, idx);
+        sum_volume_fraction_scaled += primary_variables_.volumeFractionScaled(seg, idx);
     }
 
     assert(sum_volume_fraction_scaled.value() != 0.);
 
-    return volumeFractionScaled(seg, comp_idx) / sum_volume_fraction_scaled;
+    return primary_variables_.volumeFractionScaled(seg, comp_idx) / sum_volume_fraction_scaled;
 }
 
 template<typename FluidSystem, typename Indices, typename Scalar>
@@ -237,7 +220,8 @@ getSegmentRateUpwinding(const int seg,
         return 0.0;
     }
 
-    const EvalWell segment_rate = primary_variables_.evaluation_[seg][WQTotal] * volumeFractionScaled(seg_upwind, comp_idx);
+    const EvalWell segment_rate = primary_variables_.evaluation_[seg][WQTotal] *
+                                  primary_variables_.volumeFractionScaled(seg_upwind, comp_idx);
 
     assert(segment_rate.derivative(SPres + Indices::numEq) == 0.);
 
@@ -452,7 +436,8 @@ MultisegmentWellEval<FluidSystem,Indices,Scalar>::
 getSegmentRate(const int seg,
                const int comp_idx) const
 {
-    return primary_variables_.evaluation_[seg][WQTotal] * volumeFractionScaled(seg, comp_idx);
+    return primary_variables_.evaluation_[seg][WQTotal] *
+           primary_variables_.volumeFractionScaled(seg, comp_idx);
 }
 
 template<typename FluidSystem, typename Indices, typename Scalar>

opm/simulators/wells/MultisegmentWellEval.hpp

@@ -186,10 +186,6 @@ protected:
                                              const double rho,
                                              DeferredLogger& deferred_logger) const;
 
-    // F_p / g_p, the basic usage of this value is because Q_p = G_t * F_p / G_p
-    EvalWell volumeFractionScaled(const int seg,
-                                  const int comp_idx) const;
-
     // basically Q_p / \sigma_p Q_p
     EvalWell surfaceVolumeFraction(const int seg,
                                    const int comp_idx) const;

opm/simulators/wells/MultisegmentWellPrimaryVariables.cpp

@@ -288,6 +288,23 @@ volumeFraction(const int seg,
     return oil_fraction;
 }
 
+template<class FluidSystem, class Indices, class Scalar>
+typename MultisegmentWellPrimaryVariables<FluidSystem,Indices,Scalar>::EvalWell
+MultisegmentWellPrimaryVariables<FluidSystem,Indices,Scalar>::
+volumeFractionScaled(const int seg,
+                     const int comp_idx) const
+{
+    // For reservoir rate control, the distr in well control is used for the
+    // rate conversion coefficients. For the injection well, only the distr of the injection
+    // phase is not zero.
+    const double scale = well_.scalingFactor(well_.ebosCompIdxToFlowCompIdx(comp_idx));
+    if (scale > 0.) {
+        return this->volumeFraction(seg, comp_idx) / scale;
+    }
+
+    return this->volumeFraction(seg, comp_idx);
+}
+
 #define INSTANCE(...) \
 template class MultisegmentWellPrimaryVariables<BlackOilFluidSystem<double,BlackOilDefaultIndexTraits>,__VA_ARGS__,double>;
 

opm/simulators/wells/MultisegmentWellPrimaryVariables.hpp

@@ -94,9 +94,10 @@ public:
                       const double DFLimit,
                       const double max_pressure_change);
 
-    //! \brief Returns volume fraction for component in a segment.
-    EvalWell volumeFraction(const int seg,
-                            const unsigned compIdx) const;
+    //! \brief Returns scaled volume fraction for a component in a segment.
+    //! \details F_p / g_p, the basic usage of this value is because Q_p = G_t * F_p / G_p
+    EvalWell volumeFractionScaled(const int seg,
+                                  const int compIdx) const;
 
     // the values for the primary varibles
     // based on different solutioin strategies, the wells can have different primary variables
@@ -109,6 +110,10 @@ private:
     //! \brief Handle non-reasonable fractions due to numerical overshoot.
     void processFractions(const int seg);
 
+    //! \brief Returns volume fraction for component in a segment.
+    EvalWell volumeFraction(const int seg,
+                            const unsigned compIdx) const;
+
     const WellInterfaceIndices<FluidSystem,Indices,Scalar>& well_; //!< Reference to well interface
 };