diff --git a/docs/62-update-ci-templates/index.html b/docs/62-update-ci-templates/index.html
index 8c43c268..12a4c2ef 100644
--- a/docs/62-update-ci-templates/index.html
+++ b/docs/62-update-ci-templates/index.html
@@ -8,8 +8,13 @@
           </head>
           <body>
             <header>
-    	      <br><li><a href="ci-tests/result/syntax/HTML_error_log.txt" target="content">ci-tests/result/syntax/HTML_error_log.txt</a></li></br>
-    	      <br><li><a href="ci-tests/result/syntax/HTML_correct_log.txt" target="content">ci-tests/result/syntax/HTML_correct_log.txt</a></li></br>
+    	      <br><li><a href="ci-tests/result/regression/BESMod.Examples.DesignOptimization/unitTests-dymola.log" target="content">ci-tests/result/regression/BESMod.Examples.DesignOptimization/unitTests-dymola.log</a></li></br>
+    	      <br><li><a href="ci-tests/result/regression/BESMod.Examples.DesignOptimization/comparison-dymola.log" target="content">ci-tests/result/regression/BESMod.Examples.DesignOptimization/comparison-dymola.log</a></li></br>
+    	      <br><li><a href="ci-tests/result/regression/BESMod.Examples.DesignOptimization/simulator-dymola.log" target="content">ci-tests/result/regression/BESMod.Examples.DesignOptimization/simulator-dymola.log</a></li></br>
+    	      <br><li><a href="ci-tests/result/regression/referencefiles/BESMod_Examples_DesignOptimization_BES.txt" target="content">ci-tests/result/regression/referencefiles/BESMod_Examples_DesignOptimization_BES.txt</a></li></br>
+    	      <br><li><a href="ci-tests/result/regression/BESMod.Examples.SolarThermalSystem/unitTests-dymola.log" target="content">ci-tests/result/regression/BESMod.Examples.SolarThermalSystem/unitTests-dymola.log</a></li></br>
+    	      <br><li><a href="ci-tests/result/regression/BESMod.Examples.SolarThermalSystem/comparison-dymola.log" target="content">ci-tests/result/regression/BESMod.Examples.SolarThermalSystem/comparison-dymola.log</a></li></br>
+    	      <br><li><a href="ci-tests/result/regression/BESMod.Examples.SolarThermalSystem/simulator-dymola.log" target="content">ci-tests/result/regression/BESMod.Examples.SolarThermalSystem/simulator-dymola.log</a></li></br>
             </header>
 
           </body>
diff --git a/docs/62-update-ci-templates/regression/BESMod.Examples.DesignOptimization/comparison-dymola.log b/docs/62-update-ci-templates/regression/BESMod.Examples.DesignOptimization/comparison-dymola.log
index fa509127..d0e98bb1 100644
--- a/docs/62-update-ci-templates/regression/BESMod.Examples.DesignOptimization/comparison-dymola.log
+++ b/docs/62-update-ci-templates/regression/BESMod.Examples.DesignOptimization/comparison-dymola.log
@@ -12,7 +12,7 @@
     },
     "model": "BESMod.Examples.DesignOptimization.BES",
     "simulation": {
-      "elapsed_time": 1.67,
+      "elapsed_time": 1.8,
       "final_time": 172800,
       "jacobians": 3225,
       "start_time": 0,
@@ -33,7 +33,7 @@
     },
     "model": "BESMod.Examples.DesignOptimization.BESNoDHW",
     "simulation": {
-      "elapsed_time": 3.36,
+      "elapsed_time": 3.18,
       "final_time": 172800,
       "jacobians": 6117,
       "start_time": 0,
diff --git a/docs/62-update-ci-templates/regression/BESMod.Examples.DesignOptimization/simulator-dymola.log b/docs/62-update-ci-templates/regression/BESMod.Examples.DesignOptimization/simulator-dymola.log
index eb172e73..cd14bbe2 100644
--- a/docs/62-update-ci-templates/regression/BESMod.Examples.DesignOptimization/simulator-dymola.log
+++ b/docs/62-update-ci-templates/regression/BESMod.Examples.DesignOptimization/simulator-dymola.log
@@ -244,11 +244,11 @@ In class Modelica.Units.SI.
   Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
 Used in base-class hydraulic.generation.heatPump.eva.preDro.PartialTwoPortInterface.
   Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
-Warning: The variable hydraulic.generation.heatPump.innerCycle.PerformanceDataHPCooling.sigBus.nSet is part of an expandable connector, and was only used outside of connect. That is not legal since we cannot determine its causality.
 Warning: The variable hydraulic.generation.heatPump.innerCycle.PerformanceDataHPCooling.sigBus.TConInMea is part of an expandable connector, and was only used outside of connect. That is not legal since we cannot determine its causality.
 Warning: The variable hydraulic.generation.heatPump.innerCycle.PerformanceDataHPCooling.sigBus.TEvaOutMea is part of an expandable connector, and was only used outside of connect. That is not legal since we cannot determine its causality.
 Warning: The variable hydraulic.generation.heatPump.innerCycle.PerformanceDataHPCooling.sigBus.m_flowEvaMea is part of an expandable connector, and was only used outside of connect. That is not legal since we cannot determine its causality.
 Warning: The variable hydraulic.generation.heatPump.innerCycle.PerformanceDataHPCooling.sigBus.m_flowConMea is part of an expandable connector, and was only used outside of connect. That is not legal since we cannot determine its causality.
+Warning: The variable hydraulic.generation.heatPump.innerCycle.PerformanceDataHPCooling.sigBus.nSet is part of an expandable connector, and was only used outside of connect. That is not legal since we cannot determine its causality.
 Warning: The bus-input hydraulic.control.buiAndDHWCtr.sigBusDistr.TStoBufBotMea lacks a matching non-input in the connection sets. This means that it lacks a source writing the signal to the bus.
 Bus-signal: TStoBufBotMea
 Use:  connect(hydraulic.control.buiAndDHWCtr.sigBusDistr.TStoBufBotMea, hydraulic.control.buiAndDHWCtr.hysBui.TStoBot);
@@ -324,10 +324,10 @@ Warning: The bus-input hydraulic.control.buiAndDHWCtr.sigBusDistr.TStoBufBotMea
 Bus-signal: TStoBufBotMea
 Use:  connect(hydraulic.control.buiAndDHWCtr.sigBusDistr.TStoBufBotMea, hydraulic.control.buiAndDHWCtr.hysBui.TStoBot);
 Connected bus variables:
-hydraulic.control.sigBusDistr.TStoBufBotMea (connect) "Supply temperature of the lower layers of the storage. Does not have to be the lowest layer, depending on comfort even the top may be selected"
-hydraulic.distribution.sigBusDistr.TStoBufBotMea (connect)
-hydraulic.control.setAndMeaSelPri.sigBusDistr.TStoBufBotMea (connect)
+hydraulic.control.setAndMeaSelPri.sigBusDistr.TStoBufBotMea (connect) "Supply temperature of the lower layers of the storage. Does not have to be the lowest layer, depending on comfort even the top may be selected"
 hydraulic.control.setAndMeaSelSec.sigBusDistr.TStoBufBotMea (connect)
+hydraulic.control.sigBusDistr.TStoBufBotMea (connect)
+hydraulic.distribution.sigBusDistr.TStoBufBotMea (connect)
 input hydraulic.control.buiAndDHWCtr.sigBusDistr.TStoBufBotMea (connect)
 The DAE has 4655 scalar unknowns and 4655 scalar equations.
 After eliminating unused variables:
diff --git a/docs/62-update-ci-templates/regression/BESMod.Examples.SolarThermalSystem/comparison-dymola.log b/docs/62-update-ci-templates/regression/BESMod.Examples.SolarThermalSystem/comparison-dymola.log
new file mode 100644
index 00000000..1fdad062
--- /dev/null
+++ b/docs/62-update-ci-templates/regression/BESMod.Examples.SolarThermalSystem/comparison-dymola.log
@@ -0,0 +1,44 @@
+[
+  {
+    "comparison": {
+      "file_name": "BESMod.Examples.SolarThermalSystem.SolarThermalAixLib.mat",
+      "funnel_dirs": [],
+      "success_rate": 0,
+      "t_err_max": [],
+      "test_passed": [],
+      "var_groups": [],
+      "variables": [],
+      "warnings": []
+    },
+    "model": "BESMod.Examples.SolarThermalSystem.SolarThermalAixLib",
+    "simulation": {
+      "elapsed_time": 0,
+      "final_time": 172800,
+      "jacobians": 0,
+      "start_time": 0,
+      "state_events": 0,
+      "success": false
+    }
+  },
+  {
+    "comparison": {
+      "file_name": "BESMod.Examples.SolarThermalSystem.SolarThermalBuildings.mat",
+      "funnel_dirs": [],
+      "success_rate": 0,
+      "t_err_max": [],
+      "test_passed": [],
+      "var_groups": [],
+      "variables": [],
+      "warnings": []
+    },
+    "model": "BESMod.Examples.SolarThermalSystem.SolarThermalBuildings",
+    "simulation": {
+      "elapsed_time": 0,
+      "final_time": 172800,
+      "jacobians": 0,
+      "start_time": 0,
+      "state_events": 0,
+      "success": false
+    }
+  }
+]
diff --git a/docs/62-update-ci-templates/regression/BESMod.Examples.SolarThermalSystem/simulator-dymola.log b/docs/62-update-ci-templates/regression/BESMod.Examples.SolarThermalSystem/simulator-dymola.log
new file mode 100644
index 00000000..ad94050a
--- /dev/null
+++ b/docs/62-update-ci-templates/regression/BESMod.Examples.SolarThermalSystem/simulator-dymola.log
@@ -0,0 +1,1165 @@
+ = true
+
+
+rCheck = checkModel("BESMod.Examples.SolarThermalSystem.SolarThermalAixLib");
+Check of BESMod.Examples.SolarThermalSystem.SolarThermalAixLib:
+Warning: Non-literal value.
+In nominal attribute for hydraulic.generation.solThe.pressureDrop.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.generation.solThe.pressureDrop.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.generation.solThe.pressureDrop.dp.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.generation.solThe.pressureDrop.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[1].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[2].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[3].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[4].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[5].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[6].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[7].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[8].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[9].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[10].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: The variable hydraulic.generation.heatPump.innerCycle.PerformanceDataHPCooling.sigBus.nSet is part of an expandable connector, and was only used outside of connect. That is not legal since we cannot determine its causality.
+Warning: The variable hydraulic.generation.heatPump.innerCycle.PerformanceDataHPCooling.sigBus.TConInMea is part of an expandable connector, and was only used outside of connect. That is not legal since we cannot determine its causality.
+Warning: The variable hydraulic.generation.heatPump.innerCycle.PerformanceDataHPCooling.sigBus.TEvaOutMea is part of an expandable connector, and was only used outside of connect. That is not legal since we cannot determine its causality.
+Warning: The variable hydraulic.generation.heatPump.innerCycle.PerformanceDataHPCooling.sigBus.m_flowEvaMea is part of an expandable connector, and was only used outside of connect. That is not legal since we cannot determine its causality.
+Warning: The variable hydraulic.generation.heatPump.innerCycle.PerformanceDataHPCooling.sigBus.m_flowConMea is part of an expandable connector, and was only used outside of connect. That is not legal since we cannot determine its causality.
+The model has the same number of unknowns and equations: 12772
+Check of BESMod.Examples.SolarThermalSystem.SolarThermalAixLib successful.
+Warning: WARNINGS have been issued.
+Declaring variable: Boolean rCheck ;
+
+Modelica.Utilities.Streams.print("    { \"file\" :  \"BESMod/Resources/Scripts/Dymola/Examples/SolarThermalSystem/SolarThermalAixLib.mos\",", "BESMod.Examples.SolarThermalSystem.SolarThermalAixLib.statistics.log");
+Modelica.Utilities.Streams.print("      \"model\" : \"BESMod.Examples.SolarThermalSystem.SolarThermalAixLib\",", "BESMod.Examples.SolarThermalSystem.SolarThermalAixLib.statistics.log");
+Modelica.Utilities.Streams.print("      \"check\" : {", "BESMod.Examples.SolarThermalSystem.SolarThermalAixLib.statistics.log");
+Modelica.Utilities.Streams.print("        \"command\" : \"checkModel(\\\"BESMod.Examples.SolarThermalSystem.SolarThermalAixLib\\\");\",", "BESMod.Examples.SolarThermalSystem.SolarThermalAixLib.statistics.log");
+Modelica.Utilities.Streams.print("        \"result\"  : " + String(rCheck), "BESMod.Examples.SolarThermalSystem.SolarThermalAixLib.statistics.log");
+Modelica.Utilities.Streams.print("      },", "BESMod.Examples.SolarThermalSystem.SolarThermalAixLib.statistics.log");
+
+
+rScript=RunScript("modelica://BESMod/Resources/Scripts/Dymola/Examples/SolarThermalSystem/SolarThermalAixLib.mos");
+
+simulateModel("BESMod.Examples.SolarThermalSystem.SolarThermalAixLib", stopTime=172800, method="dassl", tolerance=1e-06, resultFile="BESMod.Examples.SolarThermalSystem.SolarThermalAixLib");
+Translation of BESMod.Examples.SolarThermalSystem.SolarThermalAixLib:
+Warning: Non-literal value.
+In nominal attribute for hydraulic.generation.solThe.pressureDrop.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.generation.solThe.pressureDrop.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.generation.solThe.pressureDrop.dp.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.generation.solThe.pressureDrop.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[1].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[2].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[3].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[4].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[5].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[6].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[7].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[8].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[9].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[10].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: The variable hydraulic.generation.heatPump.innerCycle.PerformanceDataHPCooling.sigBus.nSet is part of an expandable connector, and was only used outside of connect. That is not legal since we cannot determine its causality.
+Warning: The variable hydraulic.generation.heatPump.innerCycle.PerformanceDataHPCooling.sigBus.TConInMea is part of an expandable connector, and was only used outside of connect. That is not legal since we cannot determine its causality.
+Warning: The variable hydraulic.generation.heatPump.innerCycle.PerformanceDataHPCooling.sigBus.TEvaOutMea is part of an expandable connector, and was only used outside of connect. That is not legal since we cannot determine its causality.
+Warning: The variable hydraulic.generation.heatPump.innerCycle.PerformanceDataHPCooling.sigBus.m_flowEvaMea is part of an expandable connector, and was only used outside of connect. That is not legal since we cannot determine its causality.
+Warning: The variable hydraulic.generation.heatPump.innerCycle.PerformanceDataHPCooling.sigBus.m_flowConMea is part of an expandable connector, and was only used outside of connect. That is not legal since we cannot determine its causality.
+The DAE has 12772 scalar unknowns and 12772 scalar equations.
+Warning: The initial conditions are not fully specified.
+Dymola has selected default initial conditions.
+Warning: Assuming fixed start value for the continuous states:
+    building.thermalZone[1].ROM.extWallRC.thermCapExt[1].T(start =       building.thermalZone[1].ROM.extWallRC.T_start)
+    building.thermalZone[1].ROM.floorRC.thermCapExt[1].T(start =       building.thermalZone[1].ROM.floorRC.T_start)
+    building.thermalZone[1].ROM.intWallRC.thermCapInt[1].T(start =       building.thermalZone[1].ROM.intWallRC.T_start)
+    building.thermalZone[1].ROM.roofRC.thermCapExt[1].T(start = building.thermalZone[1].ROM.roofRC.T_start)
+    building.thermalZone[1].ROM.volAir.dynBal.m(start = 483.48248*      building.thermalZone[1].ROM.volAir.rho_start)
+    building.thermalZone[1].ROM.volAir.dynBal.mXi[](each start = 483.48248*(      building.thermalZone[1].ROM.volAir.dynBal.rho_start*building.thermalZone[1].ROM.volAir.dynBal.X_start[1]))
+    building.thermalZone[1].ROM.volAir.dynBal.U(start = 483.48248*(      building.thermalZone[1].ROM.volAir.dynBal.rho_start*(smooth(5, 1006.0*((      building.thermalZone[1].ROM.volAir.dynBal.T_start-273.15)*(1-      building.thermalZone[1].ROM.volAir.dynBal.X_start[1]))+(2501014.5+1860*(      building.thermalZone[1].ROM.volAir.dynBal.T_start-273.15))*      building.thermalZone[1].ROM.volAir.dynBal.X_start[1])-84437.5)))
+    DHW.pump.vol.dynBal.U(start = 4165531.824*(DHW.pump.vol.dynBal.fluidVolume*(      DHW.pump.vol.dynBal.T_start-273.15)))
+    hydraulic.distribution.bufSto.bottomCover.loadIns.T(start = 293.15)
+    hydraulic.distribution.bufSto.bottomCover.loadWall.T(start = 293.15)
+    hydraulic.distribution.bufSto.layer[1].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[2].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[3].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[4].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[5].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[6].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[7].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[8].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[9].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[10].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[11].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[12].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[13].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[14].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[15].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[16].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[17].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[18].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[19].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[20].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.storageMantle[1].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[1].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[2].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[2].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[3].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[3].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[4].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[4].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[5].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[5].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[6].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[6].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[7].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[7].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[8].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[8].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[9].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[9].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[10].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[10].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[11].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[11].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[12].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[12].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[13].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[13].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[14].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[14].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[15].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[15].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[16].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[16].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[17].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[17].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[18].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[18].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[19].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[19].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[20].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[20].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.topCover.loadIns.T(start = 293.15)
+    hydraulic.distribution.bufSto.topCover.loadWall.T(start = 293.15)
+    hydraulic.generation.heatPump.con.vol.dynBal.U(start = 83310.63648)
+    hydraulic.generation.heatPump.eva.vol.dynBal.mXi[](each start = 0.0048*      hydraulic.generation.heatPump.eva.vol.dynBal.X_start[1])
+    hydraulic.generation.heatPump.eva.vol.dynBal.U(start = -323.23568159999974)
+    hydraulic.generation.pump.vol.dynBal.U(start = 83310636.48*hydraulic.generation.pump.vol.dynBal.fluidVolume)
+    hydraulic.generation.pumpSolThe.vol.dynBal.U(start = 83310636.48*      hydraulic.generation.pumpSolThe.vol.dynBal.fluidVolume)
+    hydraulic.generation.solThe.vol.dynBal.U(start = 83310636.48*      hydraulic.generation.solThe.vol.dynBal.fluidVolume)
+    hydraulic.transfer.pump.vol.dynBal.U(start = 83310636.48*hydraulic.transfer.pump.vol.dynBal.fluidVolume)
+    hydraulic.transfer.rad[1].vol[1].dynBal.U(start = 1586785.2032094253)
+    hydraulic.transfer.rad[1].vol[2].dynBal.U(start = 1586785.2032094253)
+    hydraulic.transfer.rad[1].vol[3].dynBal.U(start = 1586785.2032094253)
+    hydraulic.transfer.rad[1].vol[4].dynBal.U(start = 1586785.2032094253)
+    hydraulic.transfer.rad[1].vol[5].dynBal.U(start = 1586785.2032094253)
+    hydraulic.transfer.vol.dynBal.U(start = 83310636.48*hydraulic.transfer.vol.dynBal.fluidVolume)
+ 
+Sparse solver handling possible: false.
+Due to flag Advanced.SparseActivate=false.
+Model sparse and large enough: true.
+Sparse solvers are available for dassl, lsodar, cvode, radau, esdirk*, sdirk* (using OpenMP, set number of cores with Advanced.NumberOfCores).
+Warning: A call of loadResource with a non-literal string hydraulic.generation.heatPump.innerCycle.PerformanceDataHPHeating.Table_QCon.filename remains in the generated code.
+This could be caused by incorrectly calling loadResource on the result of loadResource, but apart from that it will not work for an URI.
+Warning: A call of loadResource with a non-literal string hydraulic.generation.heatPump.innerCycle.PerformanceDataHPHeating.Table_COP.filename remains in the generated code.
+This could be caused by incorrectly calling loadResource on the result of loadResource, but apart from that it will not work for an URI.
+Warning: The conditions of the following assert statements are always false:
+Warning:   assert(hydraulic.generation.heatPump.con.preDro.homotopyInitialization,     "In SolarThermalAixLib.hydraulic.generation.heatPump.con.preDro: The constant homotopyInitialization has been modified from its default value. This constant will be removed in future releases.",     AssertionLevel.warning);
+    The variable hydraulic.generation.heatPump.con.preDro.homotopyInitialization = false, was declared in class AixLib.Fluid.BaseClasses.PartialResistance, /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo at line 12, and used in component hydraulic.generation.heatPump.con.preDro.PartialResistance.
+Warning:   assert(hydraulic.generation.heatPump.eva.preDro.homotopyInitialization,     "In SolarThermalAixLib.hydraulic.generation.heatPump.eva.preDro: The constant homotopyInitialization has been modified from its default value. This constant will be removed in future releases.",     AssertionLevel.warning);
+    The variable hydraulic.generation.heatPump.eva.preDro.homotopyInitialization = false, was declared in class AixLib.Fluid.BaseClasses.PartialResistance, /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo at line 12, and used in component hydraulic.generation.heatPump.eva.preDro.PartialResistance.
+Warning: The variable building.ARoo=0 is not in range [0.1,1e+100].
+Ignoring range
+ 
+Statistics
+ 
+Original Model
+  Number of components: 2538
+  Variables: 29089
+  Constants: 535 (535 scalars)
+  Parameters: 13367 (14906 scalars)
+  Unknowns: 15187 (13094 scalars)
+  Differentiated variables: 330 scalars
+  Equations: 12220
+  Nontrivial: 9614
+Translated Model
+  Constants: 11553 scalars
+  Free parameters: 1595 scalars
+  Parameter depending: 4388 scalars
+  Outputs: 59 scalars
+  Continuous time states: 237 scalars
+  Time-varying variables: 3096 scalars
+  Alias variables: 7903 scalars
+  Assumed default initial conditions: 85
+  Number of mixed real/discrete systems of equations: 0
+  Sizes of linear systems of equations: {2, 2, 2, 2, 2, 2, 3, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,   3, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 4, 3, 2, 2, 2, 2, 2,   2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 4, 3, 2, 2, 4, 4, 2, 2}
+  Sizes after manipulation of the linear systems: {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,   0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,   0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}
+  Sizes of nonlinear systems of equations: {7, 3, 59, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6,   6, 6, 6, 6, 6, 6, 3, 1, 1, 1, 1, 1, 1, 1}
+  Sizes after manipulation of the nonlinear systems: {1, 1, 6, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,   1, 1, 1, 1, 1, 1, 1, 0, 1, 0, 1, 0, 1, 1}
+  Number of numerical Jacobians: 0
+  Initialization problem
+    Sizes of linear systems of equations: {2, 2, 2, 2, 2, 2}
+    Sizes after manipulation of the linear systems: {0, 0, 0, 0, 0, 0}
+    Sizes of nonlinear systems of equations: {11, 25, 7, 3, 59, 1}
+    Sizes after manipulation of the nonlinear systems: {5, 2, 1, 1, 5, 1}
+    Number of numerical Jacobians: 0
+ 
+Selected continuous time states
+Statically selected continuous time states
+  building.comCalCooOpe[1].intDisCom.y
+  building.comCalHeaOpe[1].intDisCom.y
+  building.comfortCalculatorCool[1].intDisCom.y
+  building.comfortCalculatorHea[1].intDisCom.y
+  building.intKPICal[1].integrator2.y
+  building.intKPICalTraGain2[1].integrator2.y
+  building.intKPICalTraGain[1].integrator2.y
+  building.intKPICalTraLoss2[1].integrator2.y
+  building.intKPICalTraLoss[1].integrator2.y
+  building.thermalZone[1].ROM.extWallRC.thermCapExt[1].T
+  building.thermalZone[1].ROM.floorRC.thermCapExt[1].T
+  building.thermalZone[1].ROM.intWallRC.thermCapInt[1].T
+  building.thermalZone[1].ROM.roofRC.thermCapExt[1].T
+  building.thermalZone[1].ROM.volAir.dynBal.m
+  building.thermalZone[1].ROM.volAir.dynBal.mXi[1]
+  building.thermalZone[1].ROM.volAir.dynBal.U
+  building.thermalZone[1].ventCont.dEMA.ExpAVG.x[1]
+  building.thermalZone[1].ventCont.dEMA.ExpAVG1.x[1]
+  DHW.integralKPICalculator.integrator2.y
+  DHW.pump.vol.dynBal.U
+  electrical.distribution.eneKPIGen.integrator2.y
+  electrical.distribution.eneKPILoa.integrator2.y
+  hydraulic.control.priGenPIDCtrl.intAbs.y
+  hydraulic.control.priGenPIDCtrl.intSqu.y
+  hydraulic.control.priGenPIDCtrl.PID.D.x
+  hydraulic.control.priGenPIDCtrl.PID.I.y
+  hydraulic.control.valCtrl.PI[1].I.y
+  hydraulic.distribution.bufSto.bottomCover.loadIns.T
+  hydraulic.distribution.bufSto.bottomCover.loadWall.T
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[1].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[1].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[1].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[1].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[2].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[2].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[2].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[2].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[3].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[3].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[3].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[3].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[4].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[4].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[4].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[4].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[5].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[5].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[5].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[5].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[6].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[6].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[6].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[6].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[7].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[7].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[7].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[7].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[8].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[8].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[8].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[8].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[9].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[9].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[9].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[9].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[10].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[10].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[10].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[10].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[11].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[11].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[11].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[11].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[12].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[12].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[12].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[12].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[13].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[13].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[13].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[13].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[14].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[14].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[14].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[14].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[15].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[15].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[15].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[15].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[16].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[16].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[16].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[16].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[17].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[17].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[17].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[17].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[18].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[18].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[18].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[18].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[19].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[19].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[19].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[19].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[20].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[20].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[20].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[20].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[1].del.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[1].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[1].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[1].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[2].del.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[2].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[2].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[2].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[3].del.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[3].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[3].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[3].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[4].del.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[4].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[4].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[4].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[5].del.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[5].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[5].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[5].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[6].del.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[6].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[6].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[6].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[7].del.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[7].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[7].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[7].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[8].del.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[8].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[8].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[8].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[9].del.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[9].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[9].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[9].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[10].del.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[10].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[10].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[10].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.layer[1].dynBal.U
+  hydraulic.distribution.bufSto.layer[2].dynBal.U
+  hydraulic.distribution.bufSto.layer[3].dynBal.U
+  hydraulic.distribution.bufSto.layer[4].dynBal.U
+  hydraulic.distribution.bufSto.layer[5].dynBal.U
+  hydraulic.distribution.bufSto.layer[6].dynBal.U
+  hydraulic.distribution.bufSto.layer[7].dynBal.U
+  hydraulic.distribution.bufSto.layer[8].dynBal.U
+  hydraulic.distribution.bufSto.layer[9].dynBal.U
+  hydraulic.distribution.bufSto.layer[10].dynBal.U
+  hydraulic.distribution.bufSto.layer[11].dynBal.U
+  hydraulic.distribution.bufSto.layer[12].dynBal.U
+  hydraulic.distribution.bufSto.layer[13].dynBal.U
+  hydraulic.distribution.bufSto.layer[14].dynBal.U
+  hydraulic.distribution.bufSto.layer[15].dynBal.U
+  hydraulic.distribution.bufSto.layer[16].dynBal.U
+  hydraulic.distribution.bufSto.layer[17].dynBal.U
+  hydraulic.distribution.bufSto.layer[18].dynBal.U
+  hydraulic.distribution.bufSto.layer[19].dynBal.U
+  hydraulic.distribution.bufSto.layer[20].dynBal.U
+  hydraulic.distribution.bufSto.storageMantle[1].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[1].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[2].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[2].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[3].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[3].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[4].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[4].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[5].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[5].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[6].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[6].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[7].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[7].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[8].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[8].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[9].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[9].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[10].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[10].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[11].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[11].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[12].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[12].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[13].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[13].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[14].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[14].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[15].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[15].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[16].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[16].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[17].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[17].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[18].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[18].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[19].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[19].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[20].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[20].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.topCover.loadIns.T
+  hydraulic.distribution.bufSto.topCover.loadWall.T
+  hydraulic.distribution.eneKPICal.integrator2.y
+  hydraulic.generation.heatPump.con.vol.dynBal.U
+  hydraulic.generation.heatPump.eva.vol.dynBal.mXi[1]
+  hydraulic.generation.heatPump.eva.vol.dynBal.U
+  hydraulic.generation.heatPump.senT_a1.T
+  hydraulic.generation.heatPump.senT_a2.T
+  hydraulic.generation.heatPump.senT_b1.T
+  hydraulic.generation.heatPump.senT_b2.T
+  hydraulic.generation.KPIHeaPum.integrator1.y
+  hydraulic.generation.KPIHeaPum.integrator3.y
+  hydraulic.generation.KPIQHP.integrator2.y
+  hydraulic.generation.KPIWel.integrator2.y
+  hydraulic.generation.KPIWel1.integrator2.y
+  hydraulic.generation.pump.vol.dynBal.U
+  hydraulic.generation.pumpSolThe.vol.dynBal.U
+  hydraulic.generation.senTGenOut.T
+  hydraulic.generation.solThe.senTCold.T
+  hydraulic.generation.solThe.senTHot.T
+  hydraulic.generation.solThe.vol.dynBal.U
+  hydraulic.transfer.pump.vol.dynBal.U
+  hydraulic.transfer.rad[1].vol[1].dynBal.U
+  hydraulic.transfer.rad[1].vol[2].dynBal.U
+  hydraulic.transfer.rad[1].vol[3].dynBal.U
+  hydraulic.transfer.rad[1].vol[4].dynBal.U
+  hydraulic.transfer.rad[1].vol[5].dynBal.U
+  hydraulic.transfer.vol.dynBal.U
+ 
+Warning: WARNINGS have been issued.
+Failed
+ = false
+
+    
+Declaring variable: Boolean rScript ;
+
+savelog("BESMod.Examples.SolarThermalSystem.SolarThermalAixLib.translation.log"); = true
+
+
+rCheck = checkModel("BESMod.Examples.SolarThermalSystem.SolarThermalBuildings");
+Check of BESMod.Examples.SolarThermalSystem.SolarThermalBuildings:
+Warning: Non-literal value.
+In nominal attribute for hydraulic.generation.solCol.res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.generation.solCol.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/Buildings/Buildings/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[1].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[2].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[3].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[4].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[5].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[6].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[7].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[8].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[9].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[10].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: The variable hydraulic.generation.heatPump.innerCycle.PerformanceDataHPCooling.sigBus.nSet is part of an expandable connector, and was only used outside of connect. That is not legal since we cannot determine its causality.
+Warning: The variable hydraulic.generation.heatPump.innerCycle.PerformanceDataHPCooling.sigBus.TConInMea is part of an expandable connector, and was only used outside of connect. That is not legal since we cannot determine its causality.
+Warning: The variable hydraulic.generation.heatPump.innerCycle.PerformanceDataHPCooling.sigBus.TEvaOutMea is part of an expandable connector, and was only used outside of connect. That is not legal since we cannot determine its causality.
+Warning: The variable hydraulic.generation.heatPump.innerCycle.PerformanceDataHPCooling.sigBus.m_flowEvaMea is part of an expandable connector, and was only used outside of connect. That is not legal since we cannot determine its causality.
+Warning: The variable hydraulic.generation.heatPump.innerCycle.PerformanceDataHPCooling.sigBus.m_flowConMea is part of an expandable connector, and was only used outside of connect. That is not legal since we cannot determine its causality.
+The model has the same number of unknowns and equations: 13238
+Check of BESMod.Examples.SolarThermalSystem.SolarThermalBuildings successful.
+Warning: WARNINGS have been issued.
+Declaring variable: Boolean rCheck ;
+
+Modelica.Utilities.Streams.print("    { \"file\" :  \"BESMod/Resources/Scripts/Dymola/Examples/SolarThermalSystem/SolarThermalBuildings.mos\",", "BESMod.Examples.SolarThermalSystem.SolarThermalBuildings.statistics.log");
+Modelica.Utilities.Streams.print("      \"model\" : \"BESMod.Examples.SolarThermalSystem.SolarThermalBuildings\",", "BESMod.Examples.SolarThermalSystem.SolarThermalBuildings.statistics.log");
+Modelica.Utilities.Streams.print("      \"check\" : {", "BESMod.Examples.SolarThermalSystem.SolarThermalBuildings.statistics.log");
+Modelica.Utilities.Streams.print("        \"command\" : \"checkModel(\\\"BESMod.Examples.SolarThermalSystem.SolarThermalBuildings\\\");\",", "BESMod.Examples.SolarThermalSystem.SolarThermalBuildings.statistics.log");
+Modelica.Utilities.Streams.print("        \"result\"  : " + String(rCheck), "BESMod.Examples.SolarThermalSystem.SolarThermalBuildings.statistics.log");
+Modelica.Utilities.Streams.print("      },", "BESMod.Examples.SolarThermalSystem.SolarThermalBuildings.statistics.log");
+
+
+rScript=RunScript("modelica://BESMod/Resources/Scripts/Dymola/Examples/SolarThermalSystem/SolarThermalBuildings.mos");
+
+simulateModel("BESMod.Examples.SolarThermalSystem.SolarThermalBuildings", stopTime=172800, method="dassl", tolerance=1e-06, resultFile="BESMod.Examples.SolarThermalSystem.SolarThermalBuildings");
+Translation of BESMod.Examples.SolarThermalSystem.SolarThermalBuildings:
+Warning: Non-literal value.
+In nominal attribute for hydraulic.generation.solCol.res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.generation.solCol.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/Buildings/Buildings/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[1].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[2].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[3].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[4].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[5].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[6].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[7].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[8].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[9].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: Non-literal value.
+In nominal attribute for hydraulic.distribution.bufSto.heatingCoil2.pipe[10].res.m_flow.
+Ignoring nominal attribute.
+In class Modelica.Units.SI.
+  Near file: /opt/dymola-2022-x86_64/Modelica/Library/Modelica 4.0.0/Units.mo, line 237
+Used in base-class hydraulic.distribution.bufSto.heatingCoil2.pipe.res.PartialTwoPortInterface.
+  Near file: /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo, line 3
+Warning: The variable hydraulic.generation.heatPump.innerCycle.PerformanceDataHPCooling.sigBus.nSet is part of an expandable connector, and was only used outside of connect. That is not legal since we cannot determine its causality.
+Warning: The variable hydraulic.generation.heatPump.innerCycle.PerformanceDataHPCooling.sigBus.TConInMea is part of an expandable connector, and was only used outside of connect. That is not legal since we cannot determine its causality.
+Warning: The variable hydraulic.generation.heatPump.innerCycle.PerformanceDataHPCooling.sigBus.TEvaOutMea is part of an expandable connector, and was only used outside of connect. That is not legal since we cannot determine its causality.
+Warning: The variable hydraulic.generation.heatPump.innerCycle.PerformanceDataHPCooling.sigBus.m_flowEvaMea is part of an expandable connector, and was only used outside of connect. That is not legal since we cannot determine its causality.
+Warning: The variable hydraulic.generation.heatPump.innerCycle.PerformanceDataHPCooling.sigBus.m_flowConMea is part of an expandable connector, and was only used outside of connect. That is not legal since we cannot determine its causality.
+The DAE has 13238 scalar unknowns and 13238 scalar equations.
+Warning: The initial conditions are not fully specified.
+Dymola has selected default initial conditions.
+Warning: Assuming fixed start value for the continuous states:
+    building.thermalZone[1].ROM.extWallRC.thermCapExt[1].T(start =       building.thermalZone[1].ROM.extWallRC.T_start)
+    building.thermalZone[1].ROM.floorRC.thermCapExt[1].T(start =       building.thermalZone[1].ROM.floorRC.T_start)
+    building.thermalZone[1].ROM.intWallRC.thermCapInt[1].T(start =       building.thermalZone[1].ROM.intWallRC.T_start)
+    building.thermalZone[1].ROM.roofRC.thermCapExt[1].T(start = building.thermalZone[1].ROM.roofRC.T_start)
+    building.thermalZone[1].ROM.volAir.dynBal.m(start = 483.48248*      building.thermalZone[1].ROM.volAir.rho_start)
+    building.thermalZone[1].ROM.volAir.dynBal.mXi[](each start = 483.48248*(      building.thermalZone[1].ROM.volAir.dynBal.rho_start*building.thermalZone[1].ROM.volAir.dynBal.X_start[1]))
+    building.thermalZone[1].ROM.volAir.dynBal.U(start = 483.48248*(      building.thermalZone[1].ROM.volAir.dynBal.rho_start*(smooth(5, 1006.0*((      building.thermalZone[1].ROM.volAir.dynBal.T_start-273.15)*(1-      building.thermalZone[1].ROM.volAir.dynBal.X_start[1]))+(2501014.5+1860*(      building.thermalZone[1].ROM.volAir.dynBal.T_start-273.15))*      building.thermalZone[1].ROM.volAir.dynBal.X_start[1])-84437.5)))
+    DHW.pump.vol.dynBal.U(start = 4165531.824*(DHW.pump.vol.dynBal.fluidVolume*(      DHW.pump.vol.dynBal.T_start-273.15)))
+    hydraulic.distribution.bufSto.bottomCover.loadIns.T(start = 293.15)
+    hydraulic.distribution.bufSto.bottomCover.loadWall.T(start = 293.15)
+    hydraulic.distribution.bufSto.layer[1].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[2].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[3].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[4].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[5].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[6].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[7].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[8].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[9].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[10].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[11].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[12].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[13].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[14].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[15].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[16].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[17].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[18].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[19].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.layer[20].dynBal.U(start = 5415191.371200002)
+    hydraulic.distribution.bufSto.storageMantle[1].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[1].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[2].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[2].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[3].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[3].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[4].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[4].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[5].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[5].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[6].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[6].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[7].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[7].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[8].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[8].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[9].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[9].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[10].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[10].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[11].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[11].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[12].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[12].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[13].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[13].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[14].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[14].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[15].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[15].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[16].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[16].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[17].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[17].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[18].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[18].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[19].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[19].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[20].Insulation.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.storageMantle[20].Wall.CylindricLoad1.heatCapacitor.T      (start = 293.15)
+    hydraulic.distribution.bufSto.topCover.loadIns.T(start = 293.15)
+    hydraulic.distribution.bufSto.topCover.loadWall.T(start = 293.15)
+    hydraulic.generation.heatPump.con.vol.dynBal.U(start = 83310.63648)
+    hydraulic.generation.heatPump.eva.vol.dynBal.mXi[](each start = 0.0048*      hydraulic.generation.heatPump.eva.vol.dynBal.X_start[1])
+    hydraulic.generation.heatPump.eva.vol.dynBal.U(start = -323.23568159999974)
+    hydraulic.generation.pump.vol.dynBal.U(start = 83310636.48*hydraulic.generation.pump.vol.dynBal.fluidVolume)
+    hydraulic.generation.pumpSolThe.vol.dynBal.U(start = 83310636.48*      hydraulic.generation.pumpSolThe.vol.dynBal.fluidVolume)
+    hydraulic.generation.solCol.vol[1].dynBal.U(start = 2093307.0574445378)
+    hydraulic.generation.solCol.vol[2].dynBal.U(start = 2093307.0574445378)
+    hydraulic.generation.solCol.vol[3].dynBal.U(start = 2093307.0574445378)
+    hydraulic.generation.solCol.vol[4].dynBal.U(start = 2093307.0574445378)
+    hydraulic.generation.solCol.vol[5].dynBal.U(start = 2093307.0574445378)
+    hydraulic.transfer.pump.vol.dynBal.U(start = 83310636.48*hydraulic.transfer.pump.vol.dynBal.fluidVolume)
+    hydraulic.transfer.rad[1].vol[1].dynBal.U(start = 1586785.2032094253)
+    hydraulic.transfer.rad[1].vol[2].dynBal.U(start = 1586785.2032094253)
+    hydraulic.transfer.rad[1].vol[3].dynBal.U(start = 1586785.2032094253)
+    hydraulic.transfer.rad[1].vol[4].dynBal.U(start = 1586785.2032094253)
+    hydraulic.transfer.rad[1].vol[5].dynBal.U(start = 1586785.2032094253)
+    hydraulic.transfer.vol.dynBal.U(start = 83310636.48*hydraulic.transfer.vol.dynBal.fluidVolume)
+ 
+Sparse solver handling possible: false.
+Due to flag Advanced.SparseActivate=false.
+Model sparse and large enough: true.
+Sparse solvers are available for dassl, lsodar, cvode, radau, esdirk*, sdirk* (using OpenMP, set number of cores with Advanced.NumberOfCores).
+Warning: A call of loadResource with a non-literal string hydraulic.generation.heatPump.innerCycle.PerformanceDataHPHeating.Table_QCon.filename remains in the generated code.
+This could be caused by incorrectly calling loadResource on the result of loadResource, but apart from that it will not work for an URI.
+Warning: A call of loadResource with a non-literal string hydraulic.generation.heatPump.innerCycle.PerformanceDataHPHeating.Table_COP.filename remains in the generated code.
+This could be caused by incorrectly calling loadResource on the result of loadResource, but apart from that it will not work for an URI.
+Warning: The conditions of the following assert statements are always false:
+Warning:   assert(hydraulic.generation.heatPump.con.preDro.homotopyInitialization,     "In SolarThermalBuildings.hydraulic.generation.heatPump.con.preDro: The constant homotopyInitialization has been modified from its default value. This constant will be removed in future releases.",     AssertionLevel.warning);
+    The variable hydraulic.generation.heatPump.con.preDro.homotopyInitialization = false, was declared in class AixLib.Fluid.BaseClasses.PartialResistance, /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo at line 12, and used in component hydraulic.generation.heatPump.con.preDro.PartialResistance.
+Warning:   assert(hydraulic.generation.heatPump.eva.preDro.homotopyInitialization,     "In SolarThermalBuildings.hydraulic.generation.heatPump.eva.preDro: The constant homotopyInitialization has been modified from its default value. This constant will be removed in future releases.",     AssertionLevel.warning);
+    The variable hydraulic.generation.heatPump.eva.preDro.homotopyInitialization = false, was declared in class AixLib.Fluid.BaseClasses.PartialResistance, /builds/EBC/EBC_all/github_ci/BESMod/installed_dependencies/AixLib/AixLib/Fluid/BaseClasses/PartialResistance.mo at line 12, and used in component hydraulic.generation.heatPump.eva.preDro.PartialResistance.
+Warning: The variable building.ARoo=0 is not in range [0.1,1e+100].
+Ignoring range
+ 
+Statistics
+ 
+Original Model
+  Number of components: 2608
+  Variables: 29930
+  Constants: 562 (562 scalars)
+  Parameters: 13637 (15154 scalars)
+  Unknowns: 15731 (13568 scalars)
+  Differentiated variables: 336 scalars
+  Equations: 12562
+  Nontrivial: 9868
+Translated Model
+  Constants: 11862 scalars
+  Free parameters: 1605 scalars
+  Parameter depending: 4318 scalars
+  Outputs: 57 scalars
+  Continuous time states: 239 scalars
+  Time-varying variables: 3295 scalars
+  Alias variables: 8204 scalars
+  Assumed default initial conditions: 89
+  Number of mixed real/discrete systems of equations: 0
+  Sizes of linear systems of equations: {2, 2, 2, 2, 2, 2, 3, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,   3, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 4, 3, 2, 2, 2, 2, 2,   2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 4, 3, 2, 2, 4, 4, 2, 2}
+  Sizes after manipulation of the linear systems: {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,   0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,   0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}
+  Sizes of nonlinear systems of equations: {7, 3, 59, 25, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6,   6, 6, 6, 6, 6, 6, 6, 6, 3, 1, 1, 1, 1, 1, 1, 1}
+  Sizes after manipulation of the nonlinear systems: {1, 1, 6, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,   1, 1, 1, 1, 1, 1, 1, 1, 0, 1, 0, 1, 0, 1, 1}
+  Number of numerical Jacobians: 0
+  Initialization problem
+    Sizes of linear systems of equations: {2, 2, 2, 2, 2, 2}
+    Sizes after manipulation of the linear systems: {0, 0, 0, 0, 0, 0}
+    Sizes of nonlinear systems of equations: {11, 7, 3, 59, 25, 1}
+    Sizes after manipulation of the nonlinear systems: {5, 1, 1, 5, 1, 1}
+    Number of numerical Jacobians: 0
+ 
+Selected continuous time states
+Statically selected continuous time states
+  building.comCalCooOpe[1].intDisCom.y
+  building.comCalHeaOpe[1].intDisCom.y
+  building.comfortCalculatorCool[1].intDisCom.y
+  building.comfortCalculatorHea[1].intDisCom.y
+  building.intKPICal[1].integrator2.y
+  building.intKPICalTraGain2[1].integrator2.y
+  building.intKPICalTraGain[1].integrator2.y
+  building.intKPICalTraLoss2[1].integrator2.y
+  building.intKPICalTraLoss[1].integrator2.y
+  building.thermalZone[1].ROM.extWallRC.thermCapExt[1].T
+  building.thermalZone[1].ROM.floorRC.thermCapExt[1].T
+  building.thermalZone[1].ROM.intWallRC.thermCapInt[1].T
+  building.thermalZone[1].ROM.roofRC.thermCapExt[1].T
+  building.thermalZone[1].ROM.volAir.dynBal.m
+  building.thermalZone[1].ROM.volAir.dynBal.mXi[1]
+  building.thermalZone[1].ROM.volAir.dynBal.U
+  building.thermalZone[1].ventCont.dEMA.ExpAVG.x[1]
+  building.thermalZone[1].ventCont.dEMA.ExpAVG1.x[1]
+  DHW.integralKPICalculator.integrator2.y
+  DHW.pump.vol.dynBal.U
+  electrical.distribution.eneKPIGen.integrator2.y
+  electrical.distribution.eneKPILoa.integrator2.y
+  hydraulic.control.priGenPIDCtrl.intAbs.y
+  hydraulic.control.priGenPIDCtrl.intSqu.y
+  hydraulic.control.priGenPIDCtrl.PID.D.x
+  hydraulic.control.priGenPIDCtrl.PID.I.y
+  hydraulic.control.valCtrl.PI[1].I.y
+  hydraulic.distribution.bufSto.bottomCover.loadIns.T
+  hydraulic.distribution.bufSto.bottomCover.loadWall.T
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[1].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[1].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[1].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[1].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[2].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[2].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[2].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[2].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[3].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[3].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[3].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[3].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[4].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[4].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[4].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[4].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[5].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[5].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[5].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[5].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[6].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[6].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[6].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[6].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[7].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[7].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[7].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[7].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[8].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[8].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[8].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[8].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[9].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[9].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[9].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[9].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[10].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[10].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[10].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[10].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[11].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[11].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[11].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[11].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[12].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[12].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[12].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[12].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[13].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[13].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[13].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[13].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[14].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[14].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[14].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[14].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[15].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[15].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[15].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[15].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[16].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[16].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[16].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[16].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[17].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[17].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[17].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[17].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[18].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[18].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[18].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[18].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[19].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[19].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[19].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[19].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[20].del.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[20].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[20].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil1.pipe[20].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[1].del.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[1].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[1].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[1].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[2].del.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[2].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[2].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[2].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[3].del.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[3].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[3].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[3].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[4].del.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[4].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[4].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[4].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[5].del.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[5].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[5].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[5].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[6].del.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[6].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[6].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[6].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[7].del.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[7].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[7].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[7].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[8].del.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[8].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[8].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[8].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[9].del.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[9].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[9].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[9].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[10].del.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[10].timDel.x
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[10].vol_a.dynBal.U
+  hydraulic.distribution.bufSto.heatingCoil2.pipe[10].vol_b.dynBal.U
+  hydraulic.distribution.bufSto.layer[1].dynBal.U
+  hydraulic.distribution.bufSto.layer[2].dynBal.U
+  hydraulic.distribution.bufSto.layer[3].dynBal.U
+  hydraulic.distribution.bufSto.layer[4].dynBal.U
+  hydraulic.distribution.bufSto.layer[5].dynBal.U
+  hydraulic.distribution.bufSto.layer[6].dynBal.U
+  hydraulic.distribution.bufSto.layer[7].dynBal.U
+  hydraulic.distribution.bufSto.layer[8].dynBal.U
+  hydraulic.distribution.bufSto.layer[9].dynBal.U
+  hydraulic.distribution.bufSto.layer[10].dynBal.U
+  hydraulic.distribution.bufSto.layer[11].dynBal.U
+  hydraulic.distribution.bufSto.layer[12].dynBal.U
+  hydraulic.distribution.bufSto.layer[13].dynBal.U
+  hydraulic.distribution.bufSto.layer[14].dynBal.U
+  hydraulic.distribution.bufSto.layer[15].dynBal.U
+  hydraulic.distribution.bufSto.layer[16].dynBal.U
+  hydraulic.distribution.bufSto.layer[17].dynBal.U
+  hydraulic.distribution.bufSto.layer[18].dynBal.U
+  hydraulic.distribution.bufSto.layer[19].dynBal.U
+  hydraulic.distribution.bufSto.layer[20].dynBal.U
+  hydraulic.distribution.bufSto.storageMantle[1].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[1].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[2].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[2].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[3].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[3].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[4].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[4].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[5].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[5].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[6].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[6].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[7].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[7].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[8].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[8].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[9].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[9].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[10].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[10].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[11].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[11].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[12].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[12].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[13].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[13].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[14].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[14].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[15].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[15].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[16].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[16].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[17].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[17].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[18].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[18].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[19].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[19].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[20].Insulation.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.storageMantle[20].Wall.CylindricLoad1.heatCapacitor.T
+  hydraulic.distribution.bufSto.topCover.loadIns.T
+  hydraulic.distribution.bufSto.topCover.loadWall.T
+  hydraulic.distribution.eneKPICal.integrator2.y
+  hydraulic.generation.heatPump.con.vol.dynBal.U
+  hydraulic.generation.heatPump.eva.vol.dynBal.mXi[1]
+  hydraulic.generation.heatPump.eva.vol.dynBal.U
+  hydraulic.generation.heatPump.senT_a1.T
+  hydraulic.generation.heatPump.senT_a2.T
+  hydraulic.generation.heatPump.senT_b1.T
+  hydraulic.generation.heatPump.senT_b2.T
+  hydraulic.generation.KPIHeaPum.integrator1.y
+  hydraulic.generation.KPIHeaPum.integrator3.y
+  hydraulic.generation.KPIQHP.integrator2.y
+  hydraulic.generation.KPIQSol.integrator2.y
+  hydraulic.generation.KPIWel.integrator2.y
+  hydraulic.generation.pump.vol.dynBal.U
+  hydraulic.generation.pumpSolThe.vol.dynBal.U
+  hydraulic.generation.senTGenOut.T
+  hydraulic.generation.solCol.vol[1].dynBal.U
+  hydraulic.generation.solCol.vol[2].dynBal.U
+  hydraulic.generation.solCol.vol[3].dynBal.U
+  hydraulic.generation.solCol.vol[4].dynBal.U
+  hydraulic.generation.solCol.vol[5].dynBal.U
+  hydraulic.transfer.pump.vol.dynBal.U
+  hydraulic.transfer.rad[1].vol[1].dynBal.U
+  hydraulic.transfer.rad[1].vol[2].dynBal.U
+  hydraulic.transfer.rad[1].vol[3].dynBal.U
+  hydraulic.transfer.rad[1].vol[4].dynBal.U
+  hydraulic.transfer.rad[1].vol[5].dynBal.U
+  hydraulic.transfer.vol.dynBal.U
+ 
+Warning: WARNINGS have been issued.
+Failed
+ = false
+
+    
+Declaring variable: Boolean rScript ;
+
+savelog("BESMod.Examples.SolarThermalSystem.SolarThermalBuildings.translation.log");
\ No newline at end of file
diff --git a/docs/62-update-ci-templates/regression/BESMod.Examples.SolarThermalSystem/unitTests-dymola.log b/docs/62-update-ci-templates/regression/BESMod.Examples.SolarThermalSystem/unitTests-dymola.log
new file mode 100644
index 00000000..4d9a29d1
--- /dev/null
+++ b/docs/62-update-ci-templates/regression/BESMod.Examples.SolarThermalSystem/unitTests-dymola.log
@@ -0,0 +1,16 @@
+Regression tests are only run for the following package:
+  BESMod.Examples.SolarThermalSystem
+*** Error: Simulation failed for 'RunScript("modelica://BESMod/Resources/Scripts/Dymola/Examples/SolarThermalSystem/SolarThermalAixLib.mos");'.
+*** Warning: Unspecified initial conditions in 'RunScript("modelica://BESMod/Resources/Scripts/Dymola/Examples/SolarThermalSystem/SolarThermalAixLib.mos");'.
+
+*** Error: Simulation failed for 'RunScript("modelica://BESMod/Resources/Scripts/Dymola/Examples/SolarThermalSystem/SolarThermalBuildings.mos");'.
+*** Warning: Unspecified initial conditions in 'RunScript("modelica://BESMod/Resources/Scripts/Dymola/Examples/SolarThermalSystem/SolarThermalBuildings.mos");'.
+
+Wrote new reference file /builds/EBC/EBC_all/github_ci/BESMod/BESMod/Resources/ReferenceResults/Dymola/BESMod_Examples_SolarThermalSystem_SolarThermalAixLib.txt.
+Wrote new reference file /builds/EBC/EBC_all/github_ci/BESMod/BESMod/Resources/ReferenceResults/Dymola/BESMod_Examples_SolarThermalSystem_SolarThermalBuildings.txt.
+Comparison files output by funnel are stored in the directory 'funnel_comp' of size 0.0 MB.
+Run 'python -c "import buildingspy.development.regressiontest as t; t.Tester(tool=\"dymola\").report()"'
+to access a summary of the comparison results.
+
+Script that runs unit tests had 4 warnings and 2 errors.
+