Index: /issm/trunk-jpl/src/c/analyses/HydrologyDCEfficientAnalysis.cpp
===================================================================
--- /issm/trunk-jpl/src/c/analyses/HydrologyDCEfficientAnalysis.cpp	(revision 18575)
+++ /issm/trunk-jpl/src/c/analyses/HydrologyDCEfficientAnalysis.cpp	(revision 18576)
@@ -414,17 +414,4 @@
 		element->FindParam(&leakage,HydrologydcLeakageFactorEnum);
 		transfer=(sediment_transmitivity)/(sediment_thickness*leakage); 
-		/* if(epl_head>sed_head){ */
-		/* 	if(residual>0.0){	 */
-		/* 		transfer=0.0; */
-		/* 	} */
-		/* 	else{ */
-		/* 		transfer=(sediment_transmitivity)/(sediment_thickness*leakage); */
-		/* 		//transfer=(epl_specificstoring*epl_thickness*sediment_transmitivity)/(sediment_thickness*leakage); */
-		/* 	} */
-		/* } */
-		/* else{ */
-		/* 	transfer=(sediment_transmitivity)/(sediment_thickness*leakage); */
-		/* 	//transfer=(sediment_storing*sediment_transmitivity)/(sediment_thickness*leakage); */
-		/* } */
 		break;
 	default:
@@ -466,18 +453,6 @@
 		residual_input->GetInputValue(&residual,gauss);
 		element->FindParam(&leakage,HydrologydcLeakageFactorEnum);
+
 		transfer=(sediment_transmitivity*sediment_head)/(sediment_thickness*leakage);
-		/* if(epl_head>sediment_head){ */
-		/* 	if(residual>0.0){	 */
-		/* 		transfer=0.0; */
-		/* 	} */
-		/* 	else{ */
-		/* 		transfer=(sediment_transmitivity*sediment_head)/(sediment_thickness*leakage); */
-		/* 		//transfer=(epl_specificstoring*epl_thickness*sediment_transmitivity*sediment_head)/(sediment_thickness*leakage); */
-		/* 	} */
-		/* } */
-		/* else{ */
-		/* 	transfer=(sediment_transmitivity*sediment_head)/(sediment_thickness*leakage); */
-		/* 	//transfer=(sediment_storing*sediment_transmitivity*sediment_head)/(sediment_thickness*leakage); */
-		/* } */
 		break;
 	default:
Index: /issm/trunk-jpl/src/c/analyses/HydrologyDCInefficientAnalysis.cpp
===================================================================
--- /issm/trunk-jpl/src/c/analyses/HydrologyDCInefficientAnalysis.cpp	(revision 18575)
+++ /issm/trunk-jpl/src/c/analyses/HydrologyDCInefficientAnalysis.cpp	(revision 18576)
@@ -606,20 +606,4 @@
 		
 		transfer=(sediment_transmitivity)/(sediment_thickness*leakage);
-		
-		/* if(epl_head>sed_head){ */
-		/* 	h_max=GetHydrologyDCInefficientHmax(element,gauss,thickness_input,base_input); */
-		/* 	if(sed_head>=h_max){ */
-		/* 		transfer=0.0; */
-		/* 	} */
-		/* 	else{ */
-		/* 		transfer=(sediment_transmitivity)/(sediment_thickness*leakage); */
-		/* 		//transfer=(epl_specificstoring*epl_thickness*sediment_transmitivity)/(sediment_thickness*leakage); */
-		/* 	} */
-		/* } */
-		/* else{ */
-		/* 	transfer=(sediment_transmitivity)/(sediment_thickness*leakage); */
-		/* 	//transfer=(sediment_storing*sediment_transmitivity)/(sediment_thickness*leakage); */
-		/* } */
-		
 		break;
 	default:
@@ -662,21 +646,7 @@
 		epl_head_input->GetInputValue(&epl_head,gauss);
 		sed_trans_input->GetInputValue(&sediment_transmitivity,gauss);
-
 		element->FindParam(&leakage,HydrologydcLeakageFactorEnum);
+
  		transfer=(sediment_transmitivity*epl_head)/(sediment_thickness*leakage);
-		/* if(epl_head>sediment_head){ */
-		/* 	h_max=GetHydrologyDCInefficientHmax(element,gauss,thickness_input,base_input); */
- 		/* 	if(sediment_head>=h_max){ */
-		/* 		transfer=0.0; */
-		/* 	} */
-		/* 	else{ */
-		/* 		transfer=(sediment_transmitivity*epl_head)/(sediment_thickness*leakage); */
-		/* 		//transfer=(epl_specificstoring*epl_thickness*sediment_transmitivity*epl_head)/(sediment_thickness*leakage); */
-		/* 	} */
-		/* } */
-		/* else{ */
-		/* 	transfer=(sediment_transmitivity*epl_head)/(sediment_thickness*leakage); */
-		/* 	//transfer=(sediment_storing*sediment_transmitivity*epl_head)/(sediment_thickness*leakage); */
-		/* } */
 		break;
 	default:
