Index: Ringtoets/Piping/test/Ringtoets.Piping.Service.Test/PipingCalculationServiceTest.cs
===================================================================
diff -u -rb902215a3a5f2ea3547a1c85b1adfc1e11391694 -r3c10891728420f1c0aa0071574bbfb149710c556
--- Ringtoets/Piping/test/Ringtoets.Piping.Service.Test/PipingCalculationServiceTest.cs	(.../PipingCalculationServiceTest.cs)	(revision b902215a3a5f2ea3547a1c85b1adfc1e11391694)
+++ Ringtoets/Piping/test/Ringtoets.Piping.Service.Test/PipingCalculationServiceTest.cs	(.../PipingCalculationServiceTest.cs)	(revision 3c10891728420f1c0aa0071574bbfb149710c556)
@@ -8,6 +8,7 @@
 using Ringtoets.Piping.Calculation.TestUtil;
 
 using NUnit.Framework;
+using Ringtoets.HydraRing.Data;
 using Ringtoets.Piping.Calculation;
 using Ringtoets.Piping.Calculation.TestUtil.SubCalculator;
 using Ringtoets.Piping.Data;
@@ -123,7 +124,10 @@
             // Setup
             PipingInput input = new PipingInput(new GeneralPipingInput())
             {
-                AssessmentLevel = (RoundedDouble)0.0
+                HydraulicBoundaryLocation = new HydraulicBoundaryLocation(0, string.Empty, 0.0, 0.0)
+                {
+                    DesignWaterLevel = (RoundedDouble) 0.0
+                }
             };
 
             // Call
@@ -286,6 +290,7 @@
             var heaveCalculator = testFactory.LastCreatedHeaveCalculator;
             var upliftCalculator = testFactory.LastCreatedUpliftCalculator;
             var sellmeijerCalculator = testFactory.LastCreatedSellmeijerCalculator;
+            var piezometricHeadAtExitCalculator = testFactory.LastCreatedPiezometricHeadAtExitCalculator;
             
             Assert.AreEqual(PipingSemiProbabilisticDesignValueFactory.GetThicknessCoverageLayer(input).GetDesignValue(), heaveCalculator.DTotal,
                             GetAccuracy(input.ThicknessCoverageLayer.Mean));
@@ -294,15 +299,15 @@
             Assert.AreEqual(input.CriticalHeaveGradient, heaveCalculator.Ich);
             Assert.AreEqual(PipingSemiProbabilisticDesignValueFactory.GetPhreaticLevelExit(input).GetDesignValue(), heaveCalculator.PhiPolder,
                             GetAccuracy(input.PhreaticLevelExit.Mean));
-            Assert.AreEqual(input.PiezometricHeadExit, heaveCalculator.PhiExit);
+            Assert.AreEqual(piezometricHeadAtExitCalculator.PhiExit, heaveCalculator.PhiExit);
             Assert.AreEqual(PipingSemiProbabilisticDesignValueFactory.GetDampingFactorExit(input).GetDesignValue(), heaveCalculator.RExit,
                             GetAccuracy(input.DampingFactorExit.Mean));
 
             Assert.AreEqual(PipingSemiProbabilisticDesignValueFactory.GetPhreaticLevelExit(input).GetDesignValue(), upliftCalculator.HExit,
                             GetAccuracy(input.PhreaticLevelExit.Mean));
             Assert.AreEqual(input.AssessmentLevel.Value, upliftCalculator.HRiver);
             Assert.AreEqual(input.UpliftModelFactor, upliftCalculator.ModelFactorUplift);
-            Assert.AreEqual(input.PiezometricHeadExit, upliftCalculator.PhiExit);
+            Assert.AreEqual(piezometricHeadAtExitCalculator.PhiExit, upliftCalculator.PhiExit);
             Assert.AreEqual(PipingSemiProbabilisticDesignValueFactory.GetPhreaticLevelExit(input).GetDesignValue(), upliftCalculator.PhiPolder,
                             GetAccuracy(input.PhreaticLevelExit.Mean));
             Assert.AreEqual(PipingSemiProbabilisticDesignValueFactory.GetDampingFactorExit(input).GetDesignValue(), upliftCalculator.RExit,