[comments]

removed german comments/words


git-svn-id: svn://svn.iws.uni-stuttgart.de/DUMUX/dumux/trunk@13822 2fb0f335-1f38-0410-981e-8018bf24f1b0

dumux/decoupled/2p/impes/gridadaptionindicator2p.hh

@@ -82,12 +82,12 @@ public:
 
         ElementIterator eEndIt = problem_.gridView().template end<0>();
         // 1) calculate Indicator -> min, maxvalues
-        // Schleife über alle Leaf-Elemente
+        // loop over all leaf-elements
         for (ElementIterator eIt = problem_.gridView().template begin<0>(); eIt != eEndIt;
                 ++eIt)
         {
-            // Bestimme maximale und minimale Sättigung
-            // Index des aktuellen Leaf-Elements
+            // calculate minimum and maximum saturation
+            // index of the current leaf-elements
             int globalIdxI = problem_.variables().index(*eIt);
 
             Scalar satI = 0.0;
@@ -104,7 +104,7 @@ public:
             globalMin = std::min(satI, globalMin);
             globalMax = std::max(satI, globalMax);
 
-            // Berechne Verfeinerungsindikator an allen Zellen
+            // calculate refinement indicator in all cells
             IntersectionIterator isItend = problem_.gridView().iend(*eIt);
             for (IntersectionIterator isIt = problem_.gridView().ibegin(*eIt); isIt != isItend; ++isIt)
             {

dumux/decoupled/2p/impes/gridadaptionindicator2plocal.hh

@@ -85,12 +85,12 @@ public:
 
         ElementIterator eEndIt = problem_.gridView().template end<0>();
         // 1) calculate Indicator -> min, maxvalues
-        // Schleife über alle Leaf-Elemente
+        // loop over all leaf-elements
         for (ElementIterator eIt = problem_.gridView().template begin<0>(); eIt != eEndIt;
                 ++eIt)
         {
-            // Bestimme maximale und minimale Sättigung
-            // Index des aktuellen Leaf-Elements
+            // calculate minimum and maximum saturation
+            // index of the current leaf-elements
             int globalIdxI = problem_.variables().index(*eIt);
 
             if (refineAtSource_)
@@ -126,7 +126,7 @@ public:
             globalMin = std::min(satI, globalMin);
             globalMax = std::max(satI, globalMax);
 
-            // Berechne Verfeinerungsindikator an allen Zellen
+            // calculate refinement indicator in all cells
             IntersectionIterator isItend = problem_.gridView().iend(*eIt);
             for (IntersectionIterator isIt = problem_.gridView().ibegin(*eIt); isIt != isItend; ++isIt)
             {
@@ -136,7 +136,7 @@ public:
                 }
 
                 const typename IntersectionIterator::Intersection &intersection = *isIt;
-                // Steige aus, falls es sich nicht um einen Nachbarn handelt
+                // exit, if it is not a neighbor
                 if (isIt->boundary())
                 {
                     BoundaryTypes bcTypes;
@@ -177,11 +177,11 @@ public:
                 }
                 else
                 {
-                    // Greife auf Nachbarn zu
+                    // get element pointer from neighbor
                     ElementPointer outside = intersection.outside();
                     int globalIdxJ = problem_.variables().index(*outside);
 
-                    // Jede Intersection nur von einer Seite betrachten
+                    // treat each intersection only from one side
                     if (eIt->level() > outside->level()
                             || (eIt->level() == outside->level() && globalIdxI < globalIdxJ))
                     {

dumux/decoupled/2p/impes/gridadaptionindicator2plocalflux.hh

@@ -253,7 +253,7 @@ public:
                 }
 
                 const typename IntersectionIterator::Intersection &intersection = *isIt;
-                // Steige aus, falls es sich nicht um einen Nachbarn handelt
+                // exit, if it is not a neighbor
                 if (isIt->boundary())
                 {
                     BoundaryTypes bcTypes;

dumux/implicit/3p/3plocalresidual.hh

@@ -138,7 +138,7 @@ public:
             const VolumeVariables &dn = this->curVolVars_(fluxVars.downstreamIdx(phaseIdx));
 
             // add advective flux of current phase
-            // if alpha > 0 und alpha < 1 then both upstream and downstream
+            // if alpha > 0 and alpha < 1 then both upstream and downstream
             // nodes need their contribution
             // if alpha == 1 (which is mostly the case) then, the downstream
             // node is not evaluated

dumux/implicit/3p3c/3p3clocalresidual.hh

@@ -157,7 +157,7 @@ public:
             {
                 // add advective flux of current component in current
                 // phase
-                // if alpha > 0 und alpha < 1 then both upstream and downstream
+                // if alpha > 0 and alpha < 1 then both upstream and downstream
                 // nodes need their contribution
                 // if alpha == 1 (which is mostly the case) then, the downstream
                 // node is not evaluated

test/implicit/mpnc/combustionproblem1c.hh

@@ -342,8 +342,8 @@ public:
 		// Calculate storage terms of the individual phases
 		for (int phaseIdx = 0; phaseIdx < numEnergyEqs; ++phaseIdx) {
 			PrimaryVariables phaseStorage;
-			/* wieviel Erhaltungsgröße im System ist (in Einheit der Bilanzgleichung)
-			 * Aufssummierte Storage term für das ganze System.
+			/* how much of the conserved quantity is in the system (in units of the balance eq.)
+			 * summed up storage term over the whole system
 			 */
 			this->model().globalPhaseStorage(phaseStorage, phaseIdx);