Index: Ringtoets/Piping/test/Ringtoets.Piping.Calculation.TestUtil/TestPipingInput.cs
===================================================================
diff -u -ra5b051a25a6bb059d5928e29a8d741a8ec31fcd5 -r1069905ff1d4bb81d6acff6c130a4bed0b041b58
--- Ringtoets/Piping/test/Ringtoets.Piping.Calculation.TestUtil/TestPipingInput.cs	(.../TestPipingInput.cs)	(revision a5b051a25a6bb059d5928e29a8d741a8ec31fcd5)
+++ Ringtoets/Piping/test/Ringtoets.Piping.Calculation.TestUtil/TestPipingInput.cs	(.../TestPipingInput.cs)	(revision 1069905ff1d4bb81d6acff6c130a4bed0b041b58)
@@ -10,6 +10,7 @@
     public class TestPipingInput
     {
         public double WaterVolumetricWeight;
+        public double SaturatedVolumicWeightOfCoverageLayer;
         public double UpliftModelFactor;
         public RoundedDouble AssessmentLevel;
         public double PiezometricHeadExit;
@@ -40,6 +41,7 @@
         public TestPipingInput()
         {
             WaterVolumetricWeight = NextIncrementalDouble();
+            SaturatedVolumicWeightOfCoverageLayer = NextIncrementalDouble();
             UpliftModelFactor = NextIncrementalDouble();
             AssessmentLevel = (RoundedDouble)NextIncrementalDouble();
             PiezometricHeadExit = NextIncrementalDouble();
@@ -57,7 +59,7 @@
             DarcyPermeability = NextIncrementalDouble();
             WaterKinematicViscosity = NextIncrementalDouble();
             Gravity = NextIncrementalDouble();
-            ExitPointXCoordinate = (RoundedDouble)NextIncrementalDouble();
+            ExitPointXCoordinate = (RoundedDouble) 0.5;
             BeddingAngle = NextIncrementalDouble();
             MeanDiameter70 = NextIncrementalDouble();
             ThicknessAquiferLayer = NextIncrementalDouble();
@@ -105,6 +107,7 @@
         {
             return new PipingCalculatorInput(
                 WaterVolumetricWeight,
+                SaturatedVolumicWeightOfCoverageLayer,
                 UpliftModelFactor,
                 AssessmentLevel,
                 PiezometricHeadExit,