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May 22, 2023 at 3:28 pmStefano ChietiSubscriber
Hello,
I'm suffering with this solver error:
"An error has occurred in cfx5solve: The ANSYS CFX solver exited with return code 1. No results file has been created"
Same goes for parallel solution:
" The ANSYS CFX partitioner exited with return code 1."
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This is an unexpected problem, because it follows from a project which was previously solved around an year ago.
I wanted to launch it again with different inputs but there's no way it can get solved.
I tought that maybe it could be a problem of directory path which changed in time. I tried to recreate from scratch the project in another .wbpj, literally anything was equal, but I still get these errors.
In the following I share the .out file I obtain from the monitor, which doesn't report any relevant error:
 This run of the CFX GEOMETRY LICENSING PATCH 2021 R1 SP3 Solver started
 at 17:14:27 on 22 May 2023 -
 (intel_xeon64.sse2_winnt) using the command:
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 "C:\Program Files\ANSYS Inc\v211\CFX\bin\perllib\cfx5solve.pl" -batch
  -ccl runInput.ccl -fullname CFX_001
Â
 GEOMETRY LICENSING PATCH 2021 R1 SP3
Â
 Point Releases and Patches installed:
 ANSYS, Inc. Products 2021 R1
 SpaceClaim 2021 R1
 Autodyn 2021 R1
 CFD-Post only 2021 R1
 CFX (includes CFD-Post) 2021 R1
 FENSAP-ICE 2021 R1
 Fluent (includes CFD-Post) 2021 R1
 Forte (includes EnSight) 2021 R1
 Polyflow (includes CFD-Post) 2021 R1
 TurboGrid 2021 R1
 Aqwa 2021 R1
 Customization Files for User Programmable Features 2021 R1
 Mechanical Products 2021 R1
 Icepak (includes CFD-Post) 2021 R1
 Remote Solve Manager Standalone Services 2021 R1
 Viewer 2021 R1
 ACIS Geometry Interface 2021 R1
 AutoCAD Geometry Interface 2021 R1
 Catia, Version 4 Geometry Interface 2021 R1
 Catia, Version 5 Geometry Interface 2021 R1
 Catia, Version 6 Geometry Interface 2021 R1
 Creo Elements/Direct Modeling Geometry Interface 2021 R1
 Creo Parametric Geometry Interface 2021 R1
 Inventor Geometry Interface 2021 R1
 JTOpen Geometry Interface 2021 R1
 NX Geometry Interface 2021 R1
 Parasolid Geometry Interface  2021 R1
 Solid Edge Geometry Interface 2021 R1
 SOLIDWORKS Geometry Interface 2021 R1
 ANSYS, Inc. License Manager 2021 R1
 Discovery 2021 R1.6
 Geometry Licensing Patch 2021 R1 SP3
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 Setting up CFX Solver run ...
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 +--------------------------------------------------------------------+
 |                                   |
 |           CFX Command Language for Run           |
 |                                   |
 +--------------------------------------------------------------------+
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 LIBRARY:
  MATERIAL: Water
   Material Description = Water (liquid)
   Material Group = Water Data, Constant Property Liquids
   Option = Pure Substance
   Thermodynamic State = Liquid
   PROPERTIES:
    Option = General Material
    EQUATION OF STATE:
     Density = 997.0 [kg m^-3]
     Molar Mass = 18.02 [kg kmol^-1]
     Option = Value
    END
    SPECIFIC HEAT CAPACITY:
     Option = Value
     Specific Heat Capacity = 4181.7 [J kg^-1 K^-1]
     Specific Heat Type = Constant Pressure
    END
    REFERENCE STATE:
     Option = Specified Point
     Reference Pressure = 1 [atm]
     Reference Specific Enthalpy = 0.0 [J/kg]
     Reference Specific Entropy = 0.0 [J/kg/K]
     Reference Temperature = 25 [C]
    END
    DYNAMIC VISCOSITY:
     Dynamic Viscosity = 8.899E-4 [kg m^-1 s^-1]
     Option = Value
    END
    THERMAL CONDUCTIVITY:
     Option = Value
     Thermal Conductivity = 0.6069 [W m^-1 K^-1]
    END
    ABSORPTION COEFFICIENT:
     Absorption Coefficient = 1.0 [m^-1]
     Option = Value
    END
    SCATTERING COEFFICIENT:
     Option = Value
     Scattering Coefficient = 0.0 [m^-1]
    END
    REFRACTIVE INDEX:
     Option = Value
     Refractive Index = 1.0 [m m^-1]
    END
    THERMAL EXPANSIVITY:
     Option = Value
     Thermal Expansivity = 2.57E-04 [K^-1]
    END
   END
  END
 END
 FLOW: Flow Analysis 1
  SOLUTION UNITS:
   Angle Units = [rad]
   Length Units = [m]
   Mass Units = [kg]
   Solid Angle Units = [sr]
   Temperature Units = [K]
   Time Units = [s]
  END
  ANALYSIS TYPE:
   Option = Steady State
   EXTERNAL SOLVER COUPLING:
    Option = None
   END
  END
  DOMAIN: CONVERGENT
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B1934
   BOUNDARY: CONVERGENT Default
    Boundary Type = WALL
    Location = F1935.1934
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   BOUNDARY: Interface CONVERGENT VOLUTE Side 1
    Boundary Type = INTERFACE
    Location = F1894.1934
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: OUTLET
    Boundary Type = OUTLET
    Location = F1936.1934
    BOUNDARY CONDITIONS:
     FLOW REGIME:
      Option = Subsonic
     END
     MASS AND MOMENTUM:
      Mass Flow Rate = 0.63 [kg s^-1]
      Mass Flow Rate Area = As Specified
      Option = Mass Flow Rate
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Option = Stationary
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: DUCTS
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B212,B213,B30,B31
   BOUNDARY: DUCTS Default
    Boundary Type = WALL
    Location = \
     F1916.30,F1917.30,F1920.31,F1921.31,F1924.212,F1925.212,F1928.213,F19\
     29.213,F25.212,F26.31,F27.213,F28.30,F355.212,F356.212,F357.212,F358.\
     212,F359.213,F360.213,F361.213,F362.213,F370.213,F371.213,F372.213,F3\
     73.213,F374.213,F375.213,F376.213,F377.213,F378.212,F379.212,F380.212\
     ,F381.212,F382.212,F383.212,F384.212,F385.212,F386.30,F387.30,F388.30\
     ,F389.30,F390.30,F391.30,F392.30,F393.30,F394.31,F395.31,F396.31,F397\
     .31,F398.31,F399.31,F400.31,F401.31,F402.31,F403.31,F404.31,F405.31,F\
     408.30,F409.30,F410.30,F411.30
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   BOUNDARY: Interface DUCTS ROTATINGCOOLINGDX Xdir Side 1
    Boundary Type = INTERFACE
    Location = \
     F205.212,F206.31,F207.213,F208.30,F21.30,F22.213,F23.31,F24.212
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface DUCTS ROTATINGCOOLINGDX Zdir Side 1
    Boundary Type = INTERFACE
    Location = F42.30,F43.213,F44.31,F45.212
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Option = Stationary
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: EULERIAN
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B32
   BOUNDARY: EULERIAN Default
    Boundary Type = WALL
    Location = F33.32
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   BOUNDARY: INLET
    Boundary Type = INLET
    Location = F34.32
    BOUNDARY CONDITIONS:
     FLOW DIRECTION:
      Option = Normal to Boundary Condition
     END
     FLOW REGIME:
      Option = Subsonic
     END
     MASS AND MOMENTUM:
      Option = Total Pressure
      Relative Pressure = 185 [kPa]
     END
     TURBULENCE:
      Option = Medium Intensity and Eddy Viscosity Ratio
     END
    END
   END
   BOUNDARY: Interface EULERIAN INTAKE Side 1
    Boundary Type = INTERFACE
    Location = F197.32
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Option = Stationary
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: INTAKE
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B78
   BOUNDARY: INTAKE Default
    Boundary Type = WALL
    Location = F1915.78,F523.78
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   BOUNDARY: Interface EULERIAN INTAKE Side 2
    Boundary Type = INTERFACE
    Location = F197.78
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface INTAKE INTAKEMAZE Side 1
    Boundary Type = INTERFACE
    Location = F83.78
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Option = Stationary
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: INTAKE MAZE
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B198
   BOUNDARY: INTAKE MAZE Default
    Boundary Type = WALL
    Location = \
     F515.198,F516.198,F517.198,F518.198,F519.198,F520.198,F521.198,F522.1\
     98,F967.198,F972.198,F974.198,F975.198,F977.198,F978.198,F979.198,F98\
     0.198,F981.198
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   BOUNDARY: Interface INTAKE INTAKEMAZE Side 2
    Boundary Type = INTERFACE
    Location = F83.198
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface INTAKEMAZE ROTATINGIMPELLER Side 1
    Boundary Type = INTERFACE
    Location = F223.198,F82.198
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Option = Stationary
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: ROTATING BOLT
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B264
   BOUNDARY: Interface ROTATINGBOLT ROTATINGIMPELLER Side 1
    Boundary Type = INTERFACE
    Location = F276.264,F277.264,F278.264,F279.264
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface ROTATINGBOLT ROTATINGSHAFT Side 1
    Boundary Type = INTERFACE
    Location = F249.264
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: ROTATING BOLT Default
    Boundary Type = WALL
    Frame Type = Rotating
    Location = \
     F1006.264,F1007.264,F1008.264,F1162.264,F1163.264,F247.264,F252.264,F\
     280.264,F305.264,F306.264,F307.264,F308.264,F942.264,F943.264,F957.26\
     4,F983.264
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Alternate Rotation Model = On
     Angular Velocity = -1256.64 [radian s^-1]
     Option = Rotating
     AXIS DEFINITION:
      Option = Coordinate Axis
      Rotation Axis = Coord 0.3
     END
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: ROTATING COOLING CENTER
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B310
   BOUNDARY: Interface ROTATINGCOOLINGCENTER ROTATINGCOOLINGDX Side 1
    Boundary Type = INTERFACE
    Location = F320.310
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface ROTATINGCOOLINGSX ROTATINGCOOLINGCENTER Side 2
    Boundary Type = INTERFACE
    Location = F340.310
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: ROTATING COOLING CENTER Default
    Boundary Type = WALL
    Frame Type = Rotating
    Location = F323.310
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   BOUNDARY: StaticWalls COOLING CENTER
    Boundary Type = WALL
    Frame Type = Rotating
    Location = F321.310
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Alternate Rotation Model = On
     Angular Velocity = -1256.64 [radian s^-1]
     Option = Rotating
     AXIS DEFINITION:
      Option = Coordinate Axis
      Rotation Axis = Coord 0.3
     END
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: ROTATING COOLING DX
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B327
   BOUNDARY: Interface DUCTS ROTATINGCOOLINGDX Xdir Side 2
    Boundary Type = INTERFACE
    Location = \
     F205.327,F206.327,F207.327,F208.327,F21.327,F22.327,F23.327,F24.327
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface DUCTS ROTATINGCOOLINGDX Zdir Side 2
    Boundary Type = INTERFACE
    Location = F42.327,F43.327,F44.327,F45.327
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface ROTATINGCOOLINGCENTER ROTATINGCOOLINGDX Side 2
    Boundary Type = INTERFACE
    Location = F320.327
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface ROTATINGCOOLINGDX ROTATINGSHAFT Side 1
    Boundary Type = INTERFACE
    Location = F265.327
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: ROTATING COOLING DX Default
    Boundary Type = WALL
    Frame Type = Rotating
    Location = \
     F10.327,F1000.327,F1001.327,F1002.327,F1003.327,F1004.327,F1009.327,F\
     1010.327,F1011.327,F1012.327,F1014.327,F1017.327,F1018.327,F1019.327,\
     F1020.327,F1021.327,F1022.327,F1023.327,F1024.327,F1025.327,F1026.327\
     ,F1027.327,F1028.327,F1040.327,F1041.327,F1042.327,F1043.327,F1044.32\
     7,F1045.327,F1046.327,F1047.327,F1048.327,F1049.327,F1050.327,F1051.3\
     27,F1052.327,F1053.327,F1054.327,F1055.327,F1056.327,F1057.327,F1058.\
     327,F1059.327,F1060.327,F1061.327,F1062.327,F1063.327,F1064.327,F1065\
     .327,F1066.327,F1067.327,F1068.327,F1069.327,F1070.327,F1071.327,F107\
     2.327,F1073.327,F1074.327,F1075.327,F1076.327,F1077.327,F1078.327,F10\
     79.327,F1080.327,F1081.327,F1082.327,F1083.327,F1084.327,F1085.327,F1\
     086.327,F1087.327,F1088.327,F1089.327,F1090.327,F1091.327,F1092.327,F\
     1093.327,F1094.327,F1095.327,F1096.327,F1097.327,F1098.327,F1099.327,\
     F11.327,F1100.327,F1101.327,F1102.327,F1103.327,F1104.327,F1105.327,F\
     1106.327,F1107.327,F1108.327,F1109.327,F1110.327,F1111.327,F1112.327,\
     F1113.327,F1114.327,F1115.327,F1116.327,F1117.327,F1118.327,F1119.327\
     ,F1120.327,F1121.327,F1122.327,F1123.327,F1124.327,F1125.327,F1126.32\
     7,F1127.327,F1128.327,F1129.327,F1130.327,F1131.327,F1132.327,F1133.3\
     27,F1134.327,F1135.327,F1136.327,F1137.327,F1138.327,F1139.327,F1140.\
     327,F1141.327,F1142.327,F1143.327,F1144.327,F1145.327,F1146.327,F1147\
     .327,F1148.327,F1149.327,F1150.327,F1151.327,F1152.327,F1153.327,F115\
     4.327,F1155.327,F1156.327,F1175.327,F1176.327,F1177.327,F1178.327,F11\
     79.327,F1180.327,F1181.327,F290.327,F324.327,F4.327,F40.327,F47.327,F\
     48.327,F49.327,F5.327,F50.327,F51.327,F52.327,F53.327,F54.327,F55.327\
     ,F56.327,F57.327,F58.327,F59.327,F6.327,F60.327,F61.327,F7.327,F8.327\
     ,F9.327,F937.327,F938.327,F939.327,F986.327,F997.327,F998.327,F999.327
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   BOUNDARY: StaticWalls COOLINGDX
    Boundary Type = WALL
    Frame Type = Rotating
    Location = \
     F219.327,F209.327,F1879.327,F266.327,F322.327,F346.327,F363.327,F365.\
     327,F1880.327,F364.327,F366.327,F367.327,F368.327,F369.327,F406.327,F\
     407.327,F41.327,F412.327,F413.327,F414.327,F415.327,F416.327,F417.327\
     ,F46.327,F345.327
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Alternate Rotation Model = On
     Angular Velocity = -1256.64 [radian s^-1]
     Option = Rotating
     AXIS DEFINITION:
      Option = Coordinate Axis
      Rotation Axis = Coord 0.3
     END
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: ROTATING COOLING SX
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B275
   BOUNDARY: Interface ROTATINGCOOLINGSX ROTATINGCOOLINGCENTER Side 1
    Boundary Type = INTERFACE
    Location = F340.275
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface ROTATINGSPILLAGE ROTATINGCOOLINGSX Side 2
    Boundary Type = INTERFACE
    Location = F248.275
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface SPILLAGEDX ROTATINGCOOLINGSX Side 2
    Boundary Type = INTERFACE
    Location = F220.275
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: ROTATING COOLING SX Default
    Boundary Type = WALL
    Frame Type = Rotating
    Location = \
     F1013.275,F1165.275,F1166.275,F1167.275,F1168.275,F1169.275,F1170.275\
     ,F1171.275,F1172.275,F1173.275,F1174.275,F251.275,F342.275,F39.275,F9\
     84.275,F987.275,F988.275,F989.275,F990.275,F991.275,F992.275,F993.275\
     ,F994.275,F995.275,F996.275
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   BOUNDARY: StaticWalls COOLING SX
    Boundary Type = WALL
    Frame Type = Rotating
    Location = F341.275,F289.275,F1891.275
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Alternate Rotation Model = On
     Angular Velocity = -1256.64 [radian s^-1]
     Option = Rotating
     AXIS DEFINITION:
      Option = Coordinate Axis
      Rotation Axis = Coord 0.3
     END
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: ROTATING IMPELLER
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B263
   BOUNDARY: Interface INTAKEMAZE ROTATINGIMPELLER Side 2
    Boundary Type = INTERFACE
    Location = F223.263,F82.263
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface ROTATINGBOLT ROTATINGIMPELLER Side 2
    Boundary Type = INTERFACE
    Location = F276.263,F277.263,F278.263,F279.263
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface ROTATINGIMPELLER ROTATINGSPILLAGE Side 1
    Boundary Type = INTERFACE
    Location = F287.263
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface ROTATINGIMPELLER VOLUTE Side 1
    Boundary Type = INTERFACE
    Location = F1876.263
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: ROTATING IMPELLER Default
    Boundary Type = WALL
    Frame Type = Rotating
    Location = \
     F100.263,F101.263,F102.263,F103.263,F104.263,F105.263,F106.263,F107.2\
     63,F108.263,F109.263,F110.263,F111.263,F112.263,F113.263,F114.263,F11\
     5.263,F1157.263,F1158.263,F1159.263,F116.263,F1160.263,F1161.263,F116\
     4.263,F117.263,F118.263,F119.263,F120.263,F121.263,F122.263,F123.263,\
     F124.263,F125.263,F87.263,F944.263,F945.263,F946.263,F947.263,F948.26\
     3,F949.263,F95.263,F950.263,F951.263,F952.263,F953.263,F954.263,F956.\
     263,F959.263,F96.263,F960.263,F961.263,F962.263,F963.263,F964.263,F96\
     5.263,F966.263,F97.263,F98.263,F99.263
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   BOUNDARY: StaticWalls IMPELLER
    Boundary Type = WALL
    Frame Type = Rotating
    Location = \
     F1901.263,F1902.263,F509.263,F508.263,F510.263,F511.263,F512.263,F513\
     .263,F514.263,F88.263,F1900.263,F221.263,F222.263,F217.263,F260.263,F\
     968.263,F969.263,F970.263,F971.263,F973.263,F976.263,F1893.263
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Alternate Rotation Model = On
     Angular Velocity = -1256.64 [radian s^-1]
     Option = Rotating
     AXIS DEFINITION:
      Option = Coordinate Axis
      Rotation Axis = Coord 0.3
     END
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: ROTATING SHAFT
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B258
   BOUNDARY: Interface ROTATINGBOLT ROTATINGSHAFT Side 2
    Boundary Type = INTERFACE
    Location = F249.258
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface ROTATINGCOOLINGDX ROTATINGSHAFT Side 2
    Boundary Type = INTERFACE
    Location = F265.258
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: ROTATING SHAFT Default
    Boundary Type = WALL
    Frame Type = Rotating
    Location = \
     F1005.258,F1029.258,F1030.258,F1031.258,F1032.258,F1033.258,F1034.258\
     ,F1035.258,F1036.258,F1037.258,F1038.258,F1039.258,F253.258
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Alternate Rotation Model = On
     Angular Velocity = -1256.64 [radian s^-1]
     Option = Rotating
     AXIS DEFINITION:
      Option = Coordinate Axis
      Rotation Axis = Coord 0.3
     END
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: ROTATING SPILLAGE
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B257
   BOUNDARY: Interface ROTATINGIMPELLER ROTATINGSPILLAGE Side 2
    Boundary Type = INTERFACE
    Location = F287.257
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface ROTATINGSPILLAGE ROTATINGCOOLINGSX Side 1
    Boundary Type = INTERFACE
    Location = F248.257
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface ROTATINGSPILLAGE SPILLAGESX Side 1
    Boundary Type = INTERFACE
    Location = F299.257,F300.257,F301.257,F302.257,F303.257
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface SPILLAGECENTER ROTATINGSPILLAGE Side 2
    Boundary Type = INTERFACE
    Location = F1881.257
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: ROTATING SPILLAGE Default
    Boundary Type = WALL
    Frame Type = Rotating
    Location = \
     F1015.257,F1016.257,F250.257,F286.257,F304.257,F91.257,F92.257,F93.25\
     7,F94.257,F940.257,F941.257,F958.257,F982.257,F985.257
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   BOUNDARY: StaticWalls SPILLAGE
    Boundary Type = WALL
    Frame Type = Rotating
    Location = \
     F1882.257,F309.257,F422.257,F423.257,F424.257,F425.257,F426.257,F427.\
     257,F428.257,F259.257,F429.257,F430.257,F431.257,F432.257,F433.257,F4\
     50.257,F483.257,F484.257,F485.257,F486.257,F487.257,F488.257,F90.257,\
     F218.257
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Alternate Rotation Model = On
     Angular Velocity = -1256.64 [radian s^-1]
     Option = Rotating
     AXIS DEFINITION:
      Option = Coordinate Axis
      Rotation Axis = Coord 0.3
     END
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: SPILLAGE CENTER
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B84
   BOUNDARY: Interface SPILLAGECENTER ROTATINGSPILLAGE Side 1
    Boundary Type = INTERFACE
    Location = F1881.84
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface SPILLAGECENTER SPILLAGEDX Side 1
    Boundary Type = INTERFACE
    Location = F328.84
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface SPILLAGECENTER SPILLAGESX Side 1
    Boundary Type = INTERFACE
    Location = F312.84
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface SPILLAGEVOLUTE SPILLAGECENTER Side 2
    Boundary Type = INTERFACE
    Location = F311.84
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: SPILLAGE CENTER Default
    Boundary Type = WALL
    Location = \
     F314.84,F316.84,F329.84,F332.84,F418.84,F434.84,F436.84,F437.84,F438.\
     84,F439.84,F86.84,F89.84
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Option = Stationary
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: SPILLAGE DX
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B339
   BOUNDARY: Interface SPILLAGECENTER SPILLAGEDX Side 2
    Boundary Type = INTERFACE
    Location = F328.339
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface SPILLAGEDX ROTATINGCOOLINGSX Side 1
    Boundary Type = INTERFACE
    Location = F220.339
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: SPILLAGE DX Default
    Boundary Type = WALL
    Location = F1890.339,F330.339,F331.339,F419.339,F420.339,F421.339
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Option = Stationary
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: SPILLAGE SX
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B38
   BOUNDARY: Interface ROTATINGSPILLAGE SPILLAGESX Side 2
    Boundary Type = INTERFACE
    Location = F299.38,F300.38,F301.38,F302.38,F303.38
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface SPILLAGECENTER SPILLAGESX Side 2
    Boundary Type = INTERFACE
    Location = F312.38
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: SPILLAGE SX Default
    Boundary Type = WALL
    Location = \
     F315.38,F347.38,F348.38,F349.38,F350.38,F351.38,F352.38,F353.38,F354.\
     38,F435.38,F440.38,F441.38,F442.38,F443.38,F444.38,F445.38,F446.38,F4\
     47.38,F448.38,F449.38,F451.38,F452.38,F453.38,F454.38,F455.38,F456.38\
     ,F457.38,F458.38,F459.38,F460.38,F461.38,F462.38,F463.38,F464.38,F465\
     .38,F466.38,F467.38,F468.38,F469.38,F470.38,F471.38,F472.38,F473.38,F\
     474.38,F475.38,F476.38,F477.38,F478.38,F479.38,F480.38,F481.38,F482.38
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Option = Stationary
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: SPILLAGE VOLUTE
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B319
   BOUNDARY: Interface SPILLAGEVOLUTE SPILLAGECENTER Side 1
    Boundary Type = INTERFACE
    Location = F311.319
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface VOLUTE SPILLAGEVOLUTE Side 2
    Boundary Type = INTERFACE
    Location = F1888.319
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: SPILLAGE VOLUTE Default
    Boundary Type = WALL
    Location = F313.319
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Option = Stationary
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: VOLUTE
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B1875
   BOUNDARY: Interface CONVERGENT VOLUTE Side 2
    Boundary Type = INTERFACE
    Location = F1894.1875
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface ROTATINGIMPELLER VOLUTE Side 2
    Boundary Type = INTERFACE
    Location = F1876.1875
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface VOLUTE SPILLAGEVOLUTE Side 1
    Boundary Type = INTERFACE
    Location = F1888.1875
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: VOLUTE Default
    Boundary Type = WALL
    Location = \
     F1887.1875,F1895.1875,F1896.1875,F1897.1875,F1898.1875,F1899.1875,F48\
     9.1875,F490.1875,F491.1875,F492.1875,F493.1875,F494.1875,F495.1875,F4\
     96.1875,F497.1875,F498.1875,F499.1875,F500.1875,F501.1875,F502.1875,F\
     503.1875,F504.1875,F505.1875,F506.1875,F507.1875
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Option = Stationary
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN INTERFACE: Interface CONVERGENT VOLUTE
   Boundary List1 = Interface CONVERGENT VOLUTE Side 1
   Boundary List2 = Interface CONVERGENT VOLUTE Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = None
     AXIS DEFINITION:
      Option = Coordinate Axis
      Rotation Axis = Coord 0.3
     END
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface DUCTS ROTATINGCOOLINGDX Xdir
   Boundary List1 = Interface DUCTS ROTATINGCOOLINGDX Xdir Side 1
   Boundary List2 = Interface DUCTS ROTATINGCOOLINGDX Xdir Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = Automatic
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface DUCTS ROTATINGCOOLINGDX Zdir
   Boundary List1 = Interface DUCTS ROTATINGCOOLINGDX Zdir Side 1
   Boundary List2 = Interface DUCTS ROTATINGCOOLINGDX Zdir Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = Automatic
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface EULERIAN INTAKE
   Boundary List1 = Interface EULERIAN INTAKE Side 1
   Boundary List2 = Interface EULERIAN INTAKE Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = None
     AXIS DEFINITION:
      Option = Coordinate Axis
      Rotation Axis = Coord 0.3
     END
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface INTAKE INTAKEMAZE
   Boundary List1 = Interface INTAKE INTAKEMAZE Side 1
   Boundary List2 = Interface INTAKE INTAKEMAZE Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = None
     AXIS DEFINITION:
      Option = Coordinate Axis
      Rotation Axis = Coord 0.3
     END
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface INTAKEMAZE ROTATINGIMPELLER
   Boundary List1 = Interface INTAKEMAZE ROTATINGIMPELLER Side 1
   Boundary List2 = Interface INTAKEMAZE ROTATINGIMPELLER Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = Automatic
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface ROTATINGBOLT ROTATINGIMPELLER
   Boundary List1 = Interface ROTATINGBOLT ROTATINGIMPELLER Side 1
   Boundary List2 = Interface ROTATINGBOLT ROTATINGIMPELLER Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = Automatic
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface ROTATINGBOLT ROTATINGSHAFT
   Boundary List1 = Interface ROTATINGBOLT ROTATINGSHAFT Side 1
   Boundary List2 = Interface ROTATINGBOLT ROTATINGSHAFT Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = Automatic
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface ROTATINGCOOLINGCENTER ROTATINGCOOLINGDX
   Boundary List1 = Interface ROTATINGCOOLINGCENTER ROTATINGCOOLINGDX Side 1
   Boundary List2 = Interface ROTATINGCOOLINGCENTER ROTATINGCOOLINGDX Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = Automatic
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface ROTATINGCOOLINGDX ROTATINGSHAFT
   Boundary List1 = Interface ROTATINGCOOLINGDX ROTATINGSHAFT Side 1
   Boundary List2 = Interface ROTATINGCOOLINGDX ROTATINGSHAFT Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = None
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface ROTATINGCOOLINGSX ROTATINGCOOLINGCENTER
   Boundary List1 = Interface ROTATINGCOOLINGSX ROTATINGCOOLINGCENTER Side 1
   Boundary List2 = Interface ROTATINGCOOLINGSX ROTATINGCOOLINGCENTER Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = Automatic
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface ROTATINGIMPELLER ROTATINGSPILLAGE
   Boundary List1 = Interface ROTATINGIMPELLER ROTATINGSPILLAGE Side 1
   Boundary List2 = Interface ROTATINGIMPELLER ROTATINGSPILLAGE Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = Automatic
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface ROTATINGIMPELLER VOLUTE
   Boundary List1 = Interface ROTATINGIMPELLER VOLUTE Side 1
   Boundary List2 = Interface ROTATINGIMPELLER VOLUTE Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = Automatic
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface ROTATINGSPILLAGE ROTATINGCOOLINGSX
   Boundary List1 = Interface ROTATINGSPILLAGE ROTATINGCOOLINGSX Side 1
   Boundary List2 = Interface ROTATINGSPILLAGE ROTATINGCOOLINGSX Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = Automatic
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface ROTATINGSPILLAGE SPILLAGESX
   Boundary List1 = Interface ROTATINGSPILLAGE SPILLAGESX Side 1
   Boundary List2 = Interface ROTATINGSPILLAGE SPILLAGESX Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = Automatic
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface SPILLAGECENTER ROTATINGSPILLAGE
   Boundary List1 = Interface SPILLAGECENTER ROTATINGSPILLAGE Side 1
   Boundary List2 = Interface SPILLAGECENTER ROTATINGSPILLAGE Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = Automatic
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface SPILLAGECENTER SPILLAGEDX
   Boundary List1 = Interface SPILLAGECENTER SPILLAGEDX Side 1
   Boundary List2 = Interface SPILLAGECENTER SPILLAGEDX Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = None
     AXIS DEFINITION:
      Option = Coordinate Axis
      Rotation Axis = Coord 0.3
     END
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface SPILLAGECENTER SPILLAGESX
   Boundary List1 = Interface SPILLAGECENTER SPILLAGESX Side 1
   Boundary List2 = Interface SPILLAGECENTER SPILLAGESX Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = None
     AXIS DEFINITION:
      Option = Coordinate Axis
      Rotation Axis = Coord 0.3
     END
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface SPILLAGEDX ROTATINGCOOLINGSX
   Boundary List1 = Interface SPILLAGEDX ROTATINGCOOLINGSX Side 1
   Boundary List2 = Interface SPILLAGEDX ROTATINGCOOLINGSX Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = Automatic
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface SPILLAGEVOLUTE SPILLAGECENTER
   Boundary List1 = Interface SPILLAGEVOLUTE SPILLAGECENTER Side 1
   Boundary List2 = Interface SPILLAGEVOLUTE SPILLAGECENTER Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = None
     AXIS DEFINITION:
      Option = Coordinate Axis
      Rotation Axis = Coord 0.3
     END
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface VOLUTE SPILLAGEVOLUTE
   Boundary List1 = Interface VOLUTE SPILLAGEVOLUTE Side 1
   Boundary List2 = Interface VOLUTE SPILLAGEVOLUTE Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = None
     AXIS DEFINITION:
      Option = Coordinate Axis
      Rotation Axis = Coord 0.3
     END
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  OUTPUT CONTROL:
   RESULTS:
    File Compression Level = Default
    Option = Standard
   END
  END
  SOLVER CONTROL:
   Turbulence Numerics = First Order
   ADVECTION SCHEME:
    Option = High Resolution
   END
   CONVERGENCE CONTROL:
    Length Scale Option = Conservative
    Maximum Number of Iterations = 500
    Minimum Number of Iterations = 1
    Timescale Control = Auto Timescale
    Timescale Factor = 10
   END
   CONVERGENCE CRITERIA:
    Residual Target = 0.001
    Residual Type = RMS
   END
   DYNAMIC MODEL CONTROL:
    Global Dynamic Model Control = On
   END
   INTERRUPT CONTROL:
    Option = Any Interrupt
    CONVERGENCE CONDITIONS:
     Option = Default Conditions
    END
   END
  END
 END
 COMMAND FILE:
  Version = 21.1
  Results Version = 21.1
 END
 SIMULATION CONTROL:
  EXECUTION CONTROL:
   EXECUTABLE SELECTION:
    Double Precision = Yes
    Large Problem = No
   END
   INTERPOLATOR STEP CONTROL:
    Runtime Priority = Standard
    MEMORY CONTROL:
     Memory Allocation Factor = 1.0
    END
   END
   PARALLEL HOST LIBRARY:
    HOST DEFINITION: -----
     Host Architecture String = winnt-amd64
     Installation Root = C:\Program Files\ANSYS Inc\v%v\CFX
    END
   END
   PARTITIONER STEP CONTROL:
    Multidomain Option = Automatic
    Runtime Priority = Standard
    MEMORY CONTROL:
     Memory Allocation Factor = 1.0
    END
    PARTITION SMOOTHING:
     Maximum Partition Smoothing Sweeps = 100
     Option = Smooth
    END
    PARTITIONING TYPE:
     MeTiS Type = k-way
     Option = MeTiS
     Partition Size Rule = Automatic
     Partition Weight Factors = 0.50000, 0.50000
    END
   END
   RUN DEFINITION:
    Run Mode = Full
    Solver Input File = CFX.def
    Solver Results File = \
     C:/Users/-CFD_pe\
     nding/dp0_CFX_1_Solution_1/CFX_001.res
   END
   SOLVER STEP CONTROL:
    Runtime Priority = Standard
    MEMORY CONTROL:
     Memory Allocation Factor = 1.0
    END
    PARALLEL ENVIRONMENT:
     Number of Processes = 2
     Start Method = Intel MPI Local Parallel
     Parallel Host List = ---*2
    END
   END
  END
 END
Â
Â
 +--------------------------------------------------------------------+
 |                                   |
 |               Partitioning               |
 |                                   |
 +--------------------------------------------------------------------+
ÂÂ
 +--------------------------------------------------------------------+
 |                                   |
 |           ANSYS(R) CFX(R) Partitioner           |
 |                                   | +--------------------------------------------------------------------+
 |         An error has occurred in cfx5solve:         |
 |                                   |
 | The ANSYS CFX partitioner exited with return code 1.        |
 +--------------------------------------------------------------------+
 +--------------------------------------------------------------------+
 | For CFX runs launched from Workbench, the final locations of    |
 | directories and files generated may differ from those shown.    |
 +--------------------------------------------------------------------+
This run of the ANSYS CFX Solver has finished.Â
Do you have any idea?
Thank you,
Stefano
-
May 23, 2023 at 11:28 amC NAnsys Employee
Hello Stefano,
Mostly this error of return code 1 happens when the boundary condition, an initial condition or some other function is not set properly. Either you did not set any pressure condition or the condition you set is not valid.If the isolated regions do not have the pressure level set either by the boundary conditions or using a reference pressure equation, you may encounter severe robustness problems.Also check your directory location.Â
This situation may have arisen because a domain interface was not properly defined during problem setup. Please carefully check the setup.
The solver will stop now and write a results file. The isolated regions can be visualised in CFX Post by making plots of the variable "Isolated Volumes".
If you are sure that the pressure level is set in each isolated fluid region then you can force the solver to turn off this check by setting the expert parameter "check isolated regions = f".Thanks,
Chaitanya Natraj
Â
-
May 23, 2023 at 1:12 pmStefano ChietiSubscriber
Hello Chaitanya,
thank you for your prompt reply! I can easely agree with any of your setup statements, I know that can be far from good or "correct".
The real fact is that I had a project in FluidFlow (CFX), with the same exact setup, which was solved withou errors and gave me results. My very first attempt was to change some setup input values. Then I found errors. My second attempt was then to simply re-run the same exact setup in that project, which eventually led to errors where previously where not!
My last attempt has been to reproduce from scratch in another project, with the same first solved setup, but still getting errors.
The fact which triggers me is that the initial, solved, project is not able to be solved anymore without changing anything, exept for the directory location on my workstation (the workstation and release of ANSYS is the same). This is why I also thought about some licensing or directory path problem.
I attach the initial project .outfile if can be usefull. I double-checked it and it's exaclty the same as the one atteched in the starting thread.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 This run of the CFX 2021 R1 Solver started at 10:08:45 on 08 Feb 2022
 by user Stefano.CHIETI on ------- (intel_xeon64.sse2_winnt) using the
 command:
Â
 "C:\Program Files\ANSYS Inc\v211\CFX\bin\perllib\cfx5solve.pl" -batch
  -ccl runInput.ccl -fullname CFX_003
Â
 2021 R1
Â
 Point Releases and Patches installed:
 ANSYS, Inc. Products 2021 R1
 SpaceClaim 2021 R1
 Autodyn 2021 R1
 CFD-Post only 2021 R1
 CFX (includes CFD-Post) 2021 R1
 FENSAP-ICE 2021 R1
 Fluent (includes CFD-Post) 2021 R1
 Forte (includes EnSight) 2021 R1
 Polyflow (includes CFD-Post) 2021 R1
 TurboGrid 2021 R1
 Aqwa 2021 R1
 Customization Files for User Programmable Features 2021 R1
 Mechanical Products 2021 R1
 Icepak (includes CFD-Post) 2021 R1
 Remote Solve Manager Standalone Services 2021 R1
 Viewer 2021 R1
 ACIS Geometry Interface 2021 R1
 AutoCAD Geometry Interface 2021 R1
 Catia, Version 4 Geometry Interface 2021 R1
 Catia, Version 5 Geometry Interface 2021 R1
 Catia, Version 6 Geometry Interface 2021 R1
 Creo Elements/Direct Modeling Geometry Interface 2021 R1
 Creo Parametric Geometry Interface 2021 R1
 Inventor Geometry Interface 2021 R1
 JTOpen Geometry Interface 2021 R1
 NX Geometry Interface 2021 R1
 Parasolid Geometry Interface  2021 R1
 Solid Edge Geometry Interface 2021 R1
 SOLIDWORKS Geometry Interface 2021 R1
 ANSYS, Inc. License Manager 2021 R1
Â
 Setting up CFX Solver run ...
Â
Â
 +--------------------------------------------------------------------+
 |                                   |
 |           CFX Command Language for Run           |
 |                                   |
 +--------------------------------------------------------------------+
Â
 LIBRARY:
  MATERIAL: Water
   Material Description = Water (liquid)
   Material Group = Water Data, Constant Property Liquids
   Option = Pure Substance
   Thermodynamic State = Liquid
   PROPERTIES:
    Option = General Material
    EQUATION OF STATE:
     Density = 997.0 [kg m^-3]
     Molar Mass = 18.02 [kg kmol^-1]
     Option = Value
    END
    SPECIFIC HEAT CAPACITY:
     Option = Value
     Specific Heat Capacity = 4181.7 [J kg^-1 K^-1]
     Specific Heat Type = Constant Pressure
    END
    REFERENCE STATE:
     Option = Specified Point
     Reference Pressure = 1 [atm]
     Reference Specific Enthalpy = 0.0 [J/kg]
     Reference Specific Entropy = 0.0 [J/kg/K]
     Reference Temperature = 25 [C]
    END
    DYNAMIC VISCOSITY:
     Dynamic Viscosity = 8.899E-4 [kg m^-1 s^-1]
     Option = Value
    END
    THERMAL CONDUCTIVITY:
     Option = Value
     Thermal Conductivity = 0.6069 [W m^-1 K^-1]
    END
    ABSORPTION COEFFICIENT:
     Absorption Coefficient = 1.0 [m^-1]
     Option = Value
    END
    SCATTERING COEFFICIENT:
     Option = Value
     Scattering Coefficient = 0.0 [m^-1]
    END
    REFRACTIVE INDEX:
     Option = Value
     Refractive Index = 1.0 [m m^-1]
    END
    THERMAL EXPANSIVITY:
     Option = Value
     Thermal Expansivity = 2.57E-04 [K^-1]
    END
   END
  END
 END
 FLOW: Flow Analysis 1
  SOLUTION UNITS:
   Angle Units = [rad]
   Length Units = [m]
   Mass Units = [kg]
   Solid Angle Units = [sr]
   Temperature Units = [K]
   Time Units = [s]
  END
  ANALYSIS TYPE:
   Option = Steady State
   EXTERNAL SOLVER COUPLING:
    Option = None
   END
  END
  DOMAIN: CONVERGENT
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B2646
   BOUNDARY: CONVERGENT Default
    Boundary Type = WALL
    Location = F2647.2646
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   BOUNDARY: Interface Convergent Volute Side 1
    Boundary Type = INTERFACE
    Location = F1861.2646
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: OUTLET
    Boundary Type = OUTLET
    Location = F2648.2646
    BOUNDARY CONDITIONS:
     FLOW REGIME:
      Option = Subsonic
     END
     MASS AND MOMENTUM:
      Mass Flow Rate = 0.63 [kg s^-1]
      Mass Flow Rate Area = As Specified
      Option = Mass Flow Rate
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Option = Stationary
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: DUCTS
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B188,B189,B26,B27
   BOUNDARY: DUCTS Default
    Boundary Type = WALL
    Location = \
     F21.188,F22.27,F23.189,F24.26,F254.188,F255.188,F256.188,F258.188,F25\
     9.189,F260.189,F261.189,F263.189,F271.189,F272.189,F273.189,F274.189,\
     F275.189,F276.189,F277.189,F278.189,F279.188,F280.188,F281.188,F282.1\
     88,F2828.26,F2829.26,F283.188,F2832.27,F2833.27,F2836.188,F2837.188,F\
     284.188,F2840.189,F2841.189,F285.188,F286.188,F287.26,F288.26,F289.26\
     ,F290.26,F291.26,F292.26,F293.26,F294.26,F295.27,F296.27,F297.27,F298\
     .27,F299.27,F300.27,F301.27,F302.27,F303.27,F304.27,F306.27,F307.27,F\
     310.26,F311.26,F312.26,F314.26
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   BOUNDARY: Interface Ducts RotatingCoolingDX Xdir Side 1
    Boundary Type = INTERFACE
    Location = \
     F2657.26,F2658.189,F2659.27,F2660.188,F2666.188,F2667.27,F2668.189,F2\
     669.26
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface Ducts RotatingCoolingDX Zdir Side 1
    Boundary Type = INTERFACE
    Location = F2662.26,F2663.189,F2664.27,F2665.188
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Option = Stationary
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: EULERIAN
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B2640
   BOUNDARY: EULERIAN Default
    Boundary Type = WALL
    Location = F2641.2640
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   BOUNDARY: INLET
    Boundary Type = INLET
    Location = F2642.2640
    BOUNDARY CONDITIONS:
     FLOW DIRECTION:
      Option = Normal to Boundary Condition
     END
     FLOW REGIME:
      Option = Subsonic
     END
     MASS AND MOMENTUM:
      Option = Total Pressure
      Relative Pressure = 185 [kPa]
     END
     TURBULENCE:
      Option = Medium Intensity and Eddy Viscosity Ratio
     END
    END
   END
   BOUNDARY: Interface Eulerian Intake Side 1
    Boundary Type = INTERFACE
    Location = F2759.2640
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Option = Stationary
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: INTAKE
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B67
   BOUNDARY: INTAKE Default
    Boundary Type = WALL
    Location = F2868.67,F436.67
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   BOUNDARY: Interface Eulerian Intake Side 2
    Boundary Type = INTERFACE
    Location = F2759.67
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface Intake IntakeMaze Side 1
    Boundary Type = INTERFACE
    Location = F2875.67
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Option = Stationary
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: INTAKE MAZE
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B2761
   BOUNDARY: INTAKE MAZE Default
    Boundary Type = WALL
    Location = \
     F427.2761,F428.2761,F429.2761,F430.2761,F431.2761,F432.2761,F433.2761\
     ,F434.2761,F899.2761,F904.2761,F906.2761,F907.2761,F909.2761,F910.276\
     1,F911.2761,F912.2761,F913.2761
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   BOUNDARY: Interface Intake IntakeMaze Side 2
    Boundary Type = INTERFACE
    Location = F2875.2761
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface IntakeMaze RotatingImpeller Side 1
    Boundary Type = INTERFACE
    Location = F211.2761,F2874.2761
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Option = Stationary
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: ROTATING BOLT
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B2687
   BOUNDARY: Interface RotatingBolt RotatingImpeller Side 1
    Boundary Type = INTERFACE
    Location = F2699.2687,F2700.2687,F2701.2687,F2702.2687
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface RotatingBolt RotatingShaft Side 1
    Boundary Type = INTERFACE
    Location = F2672.2687
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: ROTATING BOLT Default
    Boundary Type = WALL
    Frame Type = Rotating
    Location = \
     F1096.2687,F1097.2687,F236.2687,F237.2687,F238.2687,F239.2687,F2670.2\
     687,F2675.2687,F2703.2687,F872.2687,F873.2687,F888.2687,F915.2687,F93\
     8.2687,F939.2687,F940.2687
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Alternate Rotation Model = true
     Angular Velocity = -1256.64 [radian s^-1]
     Option = Rotating
     AXIS DEFINITION:
      Option = Coordinate Axis
      Rotation Axis = Coord 0.3
     END
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: ROTATING COOLING CENTER
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B2762
   BOUNDARY: Interface RotatingCoolingCENTER RotatingCoolingDX Side 1
    Boundary Type = INTERFACE
    Location = F2778.2762
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface RotatingCoolingSX RotatingCoolingCENTER Side 2
    Boundary Type = INTERFACE
    Location = F2804.2762
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: ROTATING COOLING CENTER Default
    Boundary Type = WALL
    Frame Type = Rotating
    Location = F2781.2762
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   BOUNDARY: StaticWalls CoolingCENTER
    Boundary Type = WALL
    Frame Type = Rotating
    Location = F2779.2762
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Alternate Rotation Model = true
     Angular Velocity = -1256.64 [radian s^-1]
     Option = Rotating
     AXIS DEFINITION:
      Option = Coordinate Axis
      Rotation Axis = Coord 0.3
     END
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: ROTATING COOLING DX
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B2787
   BOUNDARY: Interface Ducts RotatingCoolingDX Xdir Side 2
    Boundary Type = INTERFACE
    Location = \
     F2657.2787,F2658.2787,F2659.2787,F2660.2787,F2666.2787,F2667.2787,F26\
     68.2787,F2669.2787
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface Ducts RotatingCoolingDX Zdir Side 2
    Boundary Type = INTERFACE
    Location = F2662.2787,F2663.2787,F2664.2787,F2665.2787
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface RotatingCoolingCENTER RotatingCoolingDX Side 2
    Boundary Type = INTERFACE
    Location = F2778.2787
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface RotatingCoolingDX RotatingShaft Side 1
    Boundary Type = INTERFACE
    Location = F2688.2787
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: ROTATING COOLING DX Default
    Boundary Type = WALL
    Frame Type = Rotating
    Location = \
     F10.2787,F1000.2787,F1001.2787,F1002.2787,F1003.2787,F1004.2787,F1005\
     .2787,F1006.2787,F1007.2787,F1008.2787,F1009.2787,F1010.2787,F1011.27\
     87,F1012.2787,F1013.2787,F1014.2787,F1015.2787,F1016.2787,F1017.2787,\
     F1018.2787,F1019.2787,F1020.2787,F1021.2787,F1022.2787,F1023.2787,F10\
     24.2787,F1025.2787,F1026.2787,F1027.2787,F1028.2787,F1029.2787,F1030.\
     2787,F1031.2787,F1032.2787,F1033.2787,F1034.2787,F1035.2787,F1036.278\
     7,F1037.2787,F1038.2787,F1039.2787,F1040.2787,F1041.2787,F1042.2787,F\
     1043.2787,F1044.2787,F1045.2787,F1046.2787,F1047.2787,F1048.2787,F104\
     9.2787,F1050.2787,F1051.2787,F1052.2787,F1053.2787,F1054.2787,F1055.2\
     787,F1056.2787,F1057.2787,F1058.2787,F1059.2787,F1060.2787,F1061.2787\
     ,F1062.2787,F1063.2787,F1064.2787,F1065.2787,F1066.2787,F1067.2787,F1\
     068.2787,F1069.2787,F1070.2787,F1071.2787,F1072.2787,F1073.2787,F1074\
     .2787,F1075.2787,F1076.2787,F1077.2787,F1078.2787,F1079.2787,F1080.27\
     87,F1081.2787,F1082.2787,F1083.2787,F1084.2787,F1085.2787,F1086.2787,\
     F1087.2787,F1088.2787,F1089.2787,F1090.2787,F11.2787,F1111.2787,F1112\
     .2787,F1113.2787,F1114.2787,F1115.2787,F1116.2787,F1117.2787,F2713.27\
     87,F2782.2787,F32.2787,F36.2787,F37.2787,F38.2787,F39.2787,F4.2787,F4\
     0.2787,F41.2787,F42.2787,F43.2787,F44.2787,F45.2787,F46.2787,F47.2787\
     ,F48.2787,F49.2787,F5.2787,F50.2787,F6.2787,F7.2787,F8.2787,F867.2787\
     ,F868.2787,F869.2787,F9.2787,F918.2787,F929.2787,F930.2787,F931.2787,\
     F932.2787,F933.2787,F934.2787,F935.2787,F936.2787,F941.2787,F942.2787\
     ,F943.2787,F944.2787,F948.2787,F951.2787,F952.2787,F953.2787,F954.278\
     7,F955.2787,F956.2787,F957.2787,F958.2787,F959.2787,F960.2787,F961.27\
     87,F962.2787,F974.2787,F975.2787,F976.2787,F977.2787,F978.2787,F979.2\
     787,F980.2787,F981.2787,F982.2787,F983.2787,F984.2787,F985.2787,F986.\
     2787,F987.2787,F988.2787,F989.2787,F990.2787,F991.2787,F992.2787,F993\
     .2787,F994.2787,F995.2787,F996.2787,F997.2787,F998.2787,F999.2787
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   BOUNDARY: StaticWalls CoolingDX
    Boundary Type = WALL
    Frame Type = Rotating
    Location = \
     F1841.2787,F1842.2787,F185.2787,F204.2787,F243.2787,F245.2787,F264.27\
     87,F266.2787,F265.2787,F267.2787,F268.2787,F2689.2787,F269.2787,F270.\
     2787,F308.2787,F309.2787,F315.2787,F320.2787,F321.2787,F322.2787,F323\
     .2787,F324.2787,F33.2787,F2780.2787,F35.2787
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Alternate Rotation Model = true
     Angular Velocity = -1256.64 [radian s^-1]
     Option = Rotating
     AXIS DEFINITION:
      Option = Coordinate Axis
      Rotation Axis = Coord 0.3
     END
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: ROTATING COOLING SX
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B2698
   BOUNDARY: Interface RotatingCoolingSX RotatingCoolingCENTER Side 1
    Boundary Type = INTERFACE
    Location = F2804.2698
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface RotatingSpillage RotatingCoolingSX Side 2
    Boundary Type = INTERFACE
    Location = F2671.2698
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface SpillageDX RotatingCoolingSX Side 2
    Boundary Type = INTERFACE
    Location = F207.2698
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: ROTATING COOLING SX Default
    Boundary Type = WALL
    Frame Type = Rotating
    Location = \
     F1100.2698,F1101.2698,F1102.2698,F1103.2698,F1104.2698,F1105.2698,F11\
     06.2698,F1107.2698,F1108.2698,F1109.2698,F2674.2698,F2806.2698,F31.26\
     98,F916.2698,F919.2698,F920.2698,F921.2698,F922.2698,F923.2698,F924.2\
     698,F925.2698,F926.2698,F927.2698,F928.2698,F946.2698
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   BOUNDARY: StaticWalls CoolingSX
    Boundary Type = WALL
    Frame Type = Rotating
    Location = F1856.2698,F2712.2698,F2805.2698
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Alternate Rotation Model = true
     Angular Velocity = -1256.64 [radian s^-1]
     Option = Rotating
     AXIS DEFINITION:
      Option = Coordinate Axis
      Rotation Axis = Coord 0.3
     END
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: ROTATING IMPELLER
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B2686
   BOUNDARY: Interface IntakeMaze RotatingImpeller Side 2
    Boundary Type = INTERFACE
    Location = F211.2686,F2874.2686
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface RotatingBolt RotatingImpeller Side 2
    Boundary Type = INTERFACE
    Location = F2699.2686,F2700.2686,F2701.2686,F2702.2686
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface RotatingImpeller RotatingSpillage Side 1
    Boundary Type = INTERFACE
    Location = F2710.2686
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface RotatingImpeller Volute Side 1
    Boundary Type = INTERFACE
    Location = F2727.2686
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: ROTATING IMPELLER Default
    Boundary Type = WALL
    Frame Type = Rotating
    Location = \
     F100.2686,F101.2686,F102.2686,F103.2686,F104.2686,F105.2686,F106.2686\
     ,F107.2686,F1091.2686,F1092.2686,F1093.2686,F1094.2686,F1095.2686,F10\
     99.2686,F69.2686,F77.2686,F78.2686,F79.2686,F80.2686,F81.2686,F82.268\
     6,F83.2686,F84.2686,F85.2686,F86.2686,F87.2686,F875.2686,F876.2686,F8\
     77.2686,F878.2686,F879.2686,F88.2686,F880.2686,F881.2686,F882.2686,F8\
     83.2686,F884.2686,F885.2686,F887.2686,F89.2686,F891.2686,F892.2686,F8\
     93.2686,F894.2686,F895.2686,F896.2686,F897.2686,F898.2686,F90.2686,F9\
     1.2686,F92.2686,F93.2686,F94.2686,F95.2686,F96.2686,F97.2686,F98.2686\
     ,F99.2686
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   BOUNDARY: StaticWalls IMPELLER
    Boundary Type = WALL
    Frame Type = Rotating
    Location = \
     F1869.2686,F420.2686,F421.2686,F422.2686,F423.2686,F424.2686,F425.268\
     6,F426.2686,F70.2686,F900.2686,F901.2686,F902.2686,F903.2686,F905.268\
     6,F908.2686,F1860.2686,F1867.2686,F1868.2686,F193.2686,F209.2686,F210\
     .2686,F2683.2686
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Alternate Rotation Model = true
     Angular Velocity = -1256.64 [radian s^-1]
     Option = Rotating
     AXIS DEFINITION:
      Option = Coordinate Axis
      Rotation Axis = Coord 0.3
     END
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: ROTATING SHAFT
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B2681
   BOUNDARY: Interface RotatingBolt RotatingShaft Side 2
    Boundary Type = INTERFACE
    Location = F2672.2681
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface RotatingCoolingDX RotatingShaft Side 2
    Boundary Type = INTERFACE
    Location = F2688.2681
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: ROTATING SHAFT Default
    Boundary Type = WALL
    Frame Type = Rotating
    Location = \
     F2676.2681,F937.2681,F963.2681,F964.2681,F965.2681,F966.2681,F967.268\
     1,F968.2681,F969.2681,F970.2681,F971.2681,F972.2681,F973.2681
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Alternate Rotation Model = true
     Angular Velocity = -1256.64 [radian s^-1]
     Option = Rotating
     AXIS DEFINITION:
      Option = Coordinate Axis
      Rotation Axis = Coord 0.3
     END
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: ROTATING SPILLAGE
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B2680
   BOUNDARY: Interface RotatingImpeller RotatingSpillage Side 2
    Boundary Type = INTERFACE
    Location = F2710.2680
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface RotatingSpillage RotatingCoolingSX Side 1
    Boundary Type = INTERFACE
    Location = F2671.2680
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface RotatingSpillage SpillageSX Side 1
    Boundary Type = INTERFACE
    Location = F2722.2680,F2723.2680,F2724.2680,F2725.2680,F2726.2680
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface SpillageCENTER RotatingSpillage Side 2
    Boundary Type = INTERFACE
    Location = F1847.2680
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: ROTATING SPILLAGE Default
    Boundary Type = WALL
    Frame Type = Rotating
    Location = \
     F235.2680,F2673.2680,F2709.2680,F73.2680,F74.2680,F75.2680,F76.2680,F\
     870.2680,F871.2680,F890.2680,F914.2680,F917.2680,F949.2680,F950.2680
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   BOUNDARY: StaticWalls Spillage
    Boundary Type = WALL
    Frame Type = Rotating
    Location = \
     F1848.2680,F241.2680,F2682.2680,F331.2680,F332.2680,F333.2680,F334.26\
     80,F335.2680,F336.2680,F337.2680,F338.2680,F339.2680,F340.2680,F341.2\
     680,F342.2680,F362.2680,F395.2680,F396.2680,F397.2680,F398.2680,F399.\
     2680,F400.2680,F72.2680,F201.2680
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Alternate Rotation Model = true
     Angular Velocity = -1256.64 [radian s^-1]
     Option = Rotating
     AXIS DEFINITION:
      Option = Coordinate Axis
      Rotation Axis = Coord 0.3
     END
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: SPILLAGE CENTER
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B2862
   BOUNDARY: Interface SpillageCENTER RotatingSpillage Side 1
    Boundary Type = INTERFACE
    Location = F1847.2862
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface SpillageCENTER SpillageDX Side 1
    Boundary Type = INTERFACE
    Location = F2788.2862
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface SpillageCENTER SpillageSX Side 1
    Boundary Type = INTERFACE
    Location = F2764.2862
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface SpillageVolute SpillageCENTER Side 2
    Boundary Type = INTERFACE
    Location = F2763.2862
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: SPILLAGE CENTER Default
    Boundary Type = WALL
    Location = \
     F2768.2862,F2770.2862,F2790.2862,F2793.2862,F2864.2862,F326.2862,F343\
     .2862,F347.2862,F349.2862,F350.2862,F351.2862,F71.2862
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Option = Stationary
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: SPILLAGE DX
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B2802
   BOUNDARY: Interface SpillageCENTER SpillageDX Side 2
    Boundary Type = INTERFACE
    Location = F2788.2802
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface SpillageDX RotatingCoolingSX Side 1
    Boundary Type = INTERFACE
    Location = F207.2802
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: SPILLAGE DX Default
    Boundary Type = WALL
    Location = \
     F1855.2802,F2791.2802,F2792.2802,F328.2802,F329.2802,F330.2802
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Option = Stationary
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: SPILLAGE SX
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B30
   BOUNDARY: Interface RotatingSpillage SpillageSX Side 2
    Boundary Type = INTERFACE
    Location = F2722.30,F2723.30,F2724.30,F2725.30,F2726.30
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface SpillageCENTER SpillageSX Side 2
    Boundary Type = INTERFACE
    Location = F2764.30
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: SPILLAGE SX Default
    Boundary Type = WALL
    Location = \
     F246.30,F247.30,F248.30,F249.30,F250.30,F251.30,F252.30,F253.30,F2769\
     .30,F344.30,F352.30,F353.30,F354.30,F355.30,F356.30,F357.30,F358.30,F\
     359.30,F360.30,F361.30,F363.30,F364.30,F365.30,F366.30,F367.30,F368.3\
     0,F369.30,F370.30,F371.30,F372.30,F373.30,F374.30,F375.30,F376.30,F37\
     7.30,F378.30,F379.30,F380.30,F381.30,F382.30,F383.30,F384.30,F385.30,\
     F386.30,F387.30,F388.30,F389.30,F390.30,F391.30,F392.30,F393.30,F394.\
     30
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Option = Stationary
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: SPILLAGE VOLUTE
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B2775
   BOUNDARY: Interface SpillageVolute SpillageCENTER Side 1
    Boundary Type = INTERFACE
    Location = F2763.2775
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface Volute SpillageVolute Side 2
    Boundary Type = INTERFACE
    Location = F2811.2775
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: SPILLAGE VOLUTE Default
    Boundary Type = WALL
    Location = F2767.2775
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Option = Stationary
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN: VOLUTE
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B1834
   BOUNDARY: Interface Convergent Volute Side 2
    Boundary Type = INTERFACE
    Location = F1861.1834
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface RotatingImpeller Volute Side 2
    Boundary Type = INTERFACE
    Location = F2727.1834
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: Interface Volute SpillageVolute Side 1
    Boundary Type = INTERFACE
    Location = F2811.1834
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = Conservative Interface Flux
     END
     TURBULENCE:
      Option = Conservative Interface Flux
     END
    END
   END
   BOUNDARY: VOLUTE Default
    Boundary Type = WALL
    Location = \
     F1853.1834,F1862.1834,F1863.1834,F1864.1834,F1865.1834,F1866.1834,F40\
     1.1834,F402.1834,F403.1834,F404.1834,F405.1834,F406.1834,F407.1834,F4\
     08.1834,F409.1834,F410.1834,F411.1834,F412.1834,F413.1834,F414.1834,F\
     415.1834,F416.1834,F417.1834,F418.1834,F419.1834
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Option = Stationary
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Option = None
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = SST
    END
    TURBULENT WALL FUNCTIONS:
     Option = Automatic
    END
   END
  END
  DOMAIN INTERFACE: Interface Convergent Volute
   Boundary List1 = Interface Convergent Volute Side 1
   Boundary List2 = Interface Convergent Volute Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = None
     AXIS DEFINITION:
      Option = Coordinate Axis
      Rotation Axis = Coord 0.3
     END
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface Ducts RotatingCoolingDX Xdir
   Boundary List1 = Interface Ducts RotatingCoolingDX Xdir Side 1
   Boundary List2 = Interface Ducts RotatingCoolingDX Xdir Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = Automatic
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface Ducts RotatingCoolingDX Zdir
   Boundary List1 = Interface Ducts RotatingCoolingDX Zdir Side 1
   Boundary List2 = Interface Ducts RotatingCoolingDX Zdir Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = Automatic
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface Eulerian Intake
   Boundary List1 = Interface Eulerian Intake Side 1
   Boundary List2 = Interface Eulerian Intake Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = None
     AXIS DEFINITION:
      Option = Coordinate Axis
      Rotation Axis = Coord 0.3
     END
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface Intake IntakeMaze
   Boundary List1 = Interface Intake IntakeMaze Side 1
   Boundary List2 = Interface Intake IntakeMaze Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = None
     AXIS DEFINITION:
      Option = Coordinate Axis
      Rotation Axis = Coord 0.3
     END
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface IntakeMaze RotatingImpeller
   Boundary List1 = Interface IntakeMaze RotatingImpeller Side 1
   Boundary List2 = Interface IntakeMaze RotatingImpeller Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = Automatic
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface RotatingBolt RotatingImpeller
   Boundary List1 = Interface RotatingBolt RotatingImpeller Side 1
   Boundary List2 = Interface RotatingBolt RotatingImpeller Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = Automatic
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface RotatingBolt RotatingShaft
   Boundary List1 = Interface RotatingBolt RotatingShaft Side 1
   Boundary List2 = Interface RotatingBolt RotatingShaft Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = Automatic
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface RotatingCoolingCENTER RotatingCoolingDX
   Boundary List1 = Interface RotatingCoolingCENTER RotatingCoolingDX Side 1
   Boundary List2 = Interface RotatingCoolingCENTER RotatingCoolingDX Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = Automatic
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface RotatingCoolingDX RotatingShaft
   Boundary List1 = Interface RotatingCoolingDX RotatingShaft Side 1
   Boundary List2 = Interface RotatingCoolingDX RotatingShaft Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = None
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface RotatingCoolingSX RotatingCoolingCENTER
   Boundary List1 = Interface RotatingCoolingSX RotatingCoolingCENTER Side 1
   Boundary List2 = Interface RotatingCoolingSX RotatingCoolingCENTER Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = Automatic
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface RotatingImpeller RotatingSpillage
   Boundary List1 = Interface RotatingImpeller RotatingSpillage Side 1
   Boundary List2 = Interface RotatingImpeller RotatingSpillage Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = Automatic
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface RotatingImpeller Volute
   Boundary List1 = Interface RotatingImpeller Volute Side 1
   Boundary List2 = Interface RotatingImpeller Volute Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = Automatic
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface RotatingSpillage RotatingCoolingSX
   Boundary List1 = Interface RotatingSpillage RotatingCoolingSX Side 1
   Boundary List2 = Interface RotatingSpillage RotatingCoolingSX Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = Automatic
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface RotatingSpillage SpillageSX
   Boundary List1 = Interface RotatingSpillage SpillageSX Side 1
   Boundary List2 = Interface RotatingSpillage SpillageSX Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = Automatic
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface SpillageCENTER RotatingSpillage
   Boundary List1 = Interface SpillageCENTER RotatingSpillage Side 1
   Boundary List2 = Interface SpillageCENTER RotatingSpillage Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = Automatic
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface SpillageCENTER SpillageDX
   Boundary List1 = Interface SpillageCENTER SpillageDX Side 1
   Boundary List2 = Interface SpillageCENTER SpillageDX Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = None
     AXIS DEFINITION:
      Option = Coordinate Axis
      Rotation Axis = Coord 0.3
     END
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface SpillageCENTER SpillageSX
   Boundary List1 = Interface SpillageCENTER SpillageSX Side 1
   Boundary List2 = Interface SpillageCENTER SpillageSX Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = None
     AXIS DEFINITION:
      Option = Coordinate Axis
      Rotation Axis = Coord 0.3
     END
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface SpillageDX RotatingCoolingSX
   Boundary List1 = Interface SpillageDX RotatingCoolingSX Side 1
   Boundary List2 = Interface SpillageDX RotatingCoolingSX Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = Automatic
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface SpillageVolute SpillageCENTER
   Boundary List1 = Interface SpillageVolute SpillageCENTER Side 1
   Boundary List2 = Interface SpillageVolute SpillageCENTER Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = None
     AXIS DEFINITION:
      Option = Coordinate Axis
      Rotation Axis = Coord 0.3
     END
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  DOMAIN INTERFACE: Interface Volute SpillageVolute
   Boundary List1 = Interface Volute SpillageVolute Side 1
   Boundary List2 = Interface Volute SpillageVolute Side 2
   Interface Type = Fluid Fluid
   INTERFACE MODELS:
    Option = General Connection
    FRAME CHANGE:
     Option = Frozen Rotor
    END
    MASS AND MOMENTUM:
     Option = Conservative Interface Flux
     MOMENTUM INTERFACE MODEL:
      Option = None
     END
    END
    PITCH CHANGE:
     Option = None
     AXIS DEFINITION:
      Option = Coordinate Axis
      Rotation Axis = Coord 0.3
     END
    END
   END
   MESH CONNECTION:
    Option = GGI
   END
  END
  OUTPUT CONTROL:
   RESULTS:
    File Compression Level = Default
    Option = Standard
   END
  END
  SOLVER CONTROL:
   Turbulence Numerics = First Order
   ADVECTION SCHEME:
    Option = High Resolution
   END
   CONVERGENCE CONTROL:
    Length Scale Option = Conservative
    Maximum Number of Iterations = 500
    Minimum Number of Iterations = 1
    Timescale Control = Auto Timescale
    Timescale Factor = 10
   END
   CONVERGENCE CRITERIA:
    Residual Target = 1e-3
    Residual Type = RMS
   END
   DYNAMIC MODEL CONTROL:
    Global Dynamic Model Control = Yes
   END
   INTERRUPT CONTROL:
    Option = Any Interrupt
    CONVERGENCE CONDITIONS:
     Option = Default Conditions
    END
   END
  END
 END
 COMMAND FILE:
  Version = 21.1
  Results Version = 21.1
 END
 SIMULATION CONTROL:
  EXECUTION CONTROL:
   EXECUTABLE SELECTION:
    Double Precision = Yes
    Large Problem = No
   END
   INTERPOLATOR STEP CONTROL:
    Runtime Priority = Standard
    MEMORY CONTROL:
     Memory Allocation Factor = 1.0
    END
   END
   PARALLEL HOST LIBRARY:
    HOST DEFINITION: -------
     Host Architecture String = winnt-amd64
     Installation Root = C:\Program Files\ANSYS Inc\v%v\CFX
    END
   END
   PARTITIONER STEP CONTROL:
    Multidomain Option = Automatic
    Runtime Priority = Standard
    MEMORY CONTROL:
     Memory Allocation Factor = 1.0
    END
    PARTITION SMOOTHING:
     Maximum Partition Smoothing Sweeps = 100
     Option = Smooth
    END
    PARTITIONING TYPE:
     MeTiS Type = k-way
     Option = MeTiS
     Partition Size Rule = Automatic
     Partition Weight Factors = 0.25000, 0.25000, 0.25000, 0.25000
    END
   END
   RUN DEFINITION:
    Run Mode = Full
    Solver Input File = CFX.def
    Solver Results File = \
     C:/Users/-------/dp0_CFX_35\
     _Solution_35/CFX_003.res
   END
   SOLVER STEP CONTROL:
    Runtime Priority = Standard
    MEMORY CONTROL:
     Memory Allocation Factor = 1.0
    END
    PARALLEL ENVIRONMENT:
     Number of Processes = 4
     Start Method = Intel MPI Local Parallel
     Parallel Host List = ------*4
    END
   END
  END
 END
Â
Â
 +--------------------------------------------------------------------+
 |                                   |
 |               Partitioning               |
 |                                   |
 +--------------------------------------------------------------------+
ÂÂ
 +--------------------------------------------------------------------+
 |                                   |
 |           ANSYS(R) CFX(R) Partitioner           |
 |                                   |
 | 2021 R1                               |
 | Build 21.1 2020-11-09T17:12:37.550718                |
 | Mon Nov  9 19:04:23 GMTST 2020                   |
 |                                   |
 |             Executable Attributes            |
 |                                   |
 |      double-64bit-int32-archfort-optimised-std-lcomp      |
 |                                   |
 | (C) 1996-2021 ANSYS, Inc.                      |
 |                                   |
 | All rights reserved. Unauthorized use, distribution or duplication |
 | is prohibited. This product is subject to U.S. laws governing    |
 | export and re-export. For full Legal Notice, see documentation.   |
 +--------------------------------------------------------------------+Â
 +--------------------------------------------------------------------+
 |          Job Information at Start of Run          |
 +--------------------------------------------------------------------+ Run mode:    partitioning run
 Host computer:  ---- (PID:------)
 Job started:   Tue Feb  8 10:08:49 2022
 +--------------------------------------------------------------------+
 |             License Information             |
 +--------------------------------------------------------------------+
 -
May 23, 2023 at 3:27 pmNickFLSubscriberIt looks to be a partitioner error meaning that the job isn't even making to the solver. For the run from May 2023 you have only 2 partitions and that from Feb 2022 had 4. Also in there seems to be a results file. I am not a Workbench guy, does Workbench save the partitioning information so you don't have to repartition? And that maybe the original partitioning had a higher memory allocation due to the large number of interfaces. But usually if it runs into a memory error, the error message looks a little different. My first recommendation is try the local 4 like you had in Feb 2022. Get that working again. And make sure there are no special characters or spaces in your filename & path.
-
May 23, 2023 at 3:36 pmStefano ChietiSubscriber
I posted the solver run with 2 partitions but I also tried with 4 partitions as the initial one. Either with partitions or serial, the result is the same.
The old analysis was solved, I tried to solve it again on these days with the same setup and same solver controls, but it didn't work.Â
-
May 23, 2023 at 3:42 pmNickFLSubscriber
Well something has changed and using Workbench it hides so much from you that debugging is often more difficult.
The next thing is, open CFX in stand-alone mode. Continue running the C:/Users/-------/dp0_CFX_35\Solution_35/CFX_003.res file. Does this run?
-
May 23, 2023 at 4:40 pmStefano ChietiSubscriber
I tried what you suggested, the import of .res file in a CFX stand-alone was ok. When I select the "continue calculation" option I obtain the same return code. I tried in a brand new project and in the same initial project.Â
-
May 23, 2023 at 5:00 pmNickFLSubscriber
So in stand-alone the res file was able to be run? That tells us that the solver license, installation and everything is working fine. Ant that there is nothing wrong with the setup. I do not recall if res files saves the partitions or whether it repartitions every time. What happens if you give it a different number of partitions when you run the res file.
What does "continue calculation" mean? Is this a Workbench thing? It could mean your Workbench project is corrupted. This is why I typically run my studies in stand-alone. I wouldn't be able to help you recover the Workbench project.
-
May 23, 2023 at 5:23 pmStefano ChietiSubscriber
In stand-alone the .res file was imported in the solution block correctly. I.e. I could see the results in the CFX-Post.
When triyng to run the .res file again, I obtain the error code object of the thread. Doesn't change with number of partitions or serial calculations.
This is my original Workbench - Block AK is the where the .res solved correclty came from.
This is the brand new project where I re-create the original one:
-
May 23, 2023 at 5:31 pmNickFLSubscriber
Sorry I don’t do Workbench.
And when I speak of stand-alone, I mean close Workbench and from the Windows Start Menu find CFX. This will start the CFX Launcher. Change the working directory to something appropriate, like where your files are. Then open the CFX Solver manager. Then in the Define Run window specify the working res file for the Solver Input File.
In CFX the file can be run from a def or a res as they both have everything they need for the solve.
Â
-
May 24, 2023 at 4:36 pmStefano ChietiSubscriber
I did exaclty what you suggested, so I opened a stand-alone CFX from Windows and retrieved the run information in Define Run window.
I tried to run both the .def and the .res of the original project, the .def and the .res of the recreated project. I ever obtanied the same return code after the initialization of the partitioning (same applies for serial).
The only difference is that the original .res file displayed the RMS curves on the monitor, but still exited at the partitioner.
-
May 24, 2023 at 4:39 pmNickFLSubscriber
Have you tried simply solving flow through a pipe and seeing if you can get through the partitioning step?
-
May 24, 2023 at 4:51 pmStefano ChietiSubscriber
I'm going to have a quick test on it. I will keep you up to date!
-
May 25, 2023 at 10:02 amStefano ChietiSubscriber
I tried with a simple pipe flow, still got the same error.
Â
 This run of the CFX GEOMETRY LICENSING PATCH 2021 R1 SP3 Solver started
 at 12:00:23 on 25 May 2023 by user Stefano.CHIETI on ----------
 (intel_xeon64.sse2_winnt) using the command:
Â
 "C:\Program Files\ANSYS Inc\v211\CFX\bin\perllib\cfx5solve.pl" -batch
  -ccl runInput.ccl -fullname "CFD 2022_003"
Â
 GEOMETRY LICENSING PATCH 2021 R1 SP3
Â
 Point Releases and Patches installed:
 ANSYS, Inc. Products 2021 R1
 SpaceClaim 2021 R1
 Autodyn 2021 R1
 CFD-Post only 2021 R1
 CFX (includes CFD-Post) 2021 R1
 FENSAP-ICE 2021 R1
 Fluent (includes CFD-Post) 2021 R1
 Forte (includes EnSight) 2021 R1
 Polyflow (includes CFD-Post) 2021 R1
 TurboGrid 2021 R1
 Aqwa 2021 R1
 Customization Files for User Programmable Features 2021 R1
 Mechanical Products 2021 R1
 Icepak (includes CFD-Post) 2021 R1
 Remote Solve Manager Standalone Services 2021 R1
 Viewer 2021 R1
 ACIS Geometry Interface 2021 R1
 AutoCAD Geometry Interface 2021 R1
 Catia, Version 4 Geometry Interface 2021 R1
 Catia, Version 5 Geometry Interface 2021 R1
 Catia, Version 6 Geometry Interface 2021 R1
 Creo Elements/Direct Modeling Geometry Interface 2021 R1
 Creo Parametric Geometry Interface 2021 R1
 Inventor Geometry Interface 2021 R1
 JTOpen Geometry Interface 2021 R1
 NX Geometry Interface 2021 R1
 Parasolid Geometry Interface  2021 R1
 Solid Edge Geometry Interface 2021 R1
 SOLIDWORKS Geometry Interface 2021 R1
 ANSYS, Inc. License Manager 2021 R1
 Discovery 2021 R1.6
 Geometry Licensing Patch 2021 R1 SP3
Â
 Setting up CFX Solver run ...
Â
Â
 +--------------------------------------------------------------------+
 |                                   |
 |           CFX Command Language for Run           |
 |                                   |
 +--------------------------------------------------------------------+
Â
 LIBRARY:
  MATERIAL: Water
   Material Description = Water (liquid)
   Material Group = Water Data, Constant Property Liquids
   Option = Pure Substance
   Thermodynamic State = Liquid
   PROPERTIES:
    Option = General Material
    EQUATION OF STATE:
     Density = 997.0 [kg m^-3]
     Molar Mass = 18.02 [kg kmol^-1]
     Option = Value
    END
    SPECIFIC HEAT CAPACITY:
     Option = Value
     Specific Heat Capacity = 4181.7 [J kg^-1 K^-1]
     Specific Heat Type = Constant Pressure
    END
    REFERENCE STATE:
     Option = Specified Point
     Reference Pressure = 1 [atm]
     Reference Specific Enthalpy = 0.0 [J/kg]
     Reference Specific Entropy = 0.0 [J/kg/K]
     Reference Temperature = 25 [C]
    END
    DYNAMIC VISCOSITY:
     Dynamic Viscosity = 8.899E-4 [kg m^-1 s^-1]
     Option = Value
    END
    THERMAL CONDUCTIVITY:
     Option = Value
     Thermal Conductivity = 0.6069 [W m^-1 K^-1]
    END
    ABSORPTION COEFFICIENT:
     Absorption Coefficient = 1.0 [m^-1]
     Option = Value
    END
    SCATTERING COEFFICIENT:
     Option = Value
     Scattering Coefficient = 0.0 [m^-1]
    END
    REFRACTIVE INDEX:
     Option = Value
     Refractive Index = 1.0 [m m^-1]
    END
    THERMAL EXPANSIVITY:
     Option = Value
     Thermal Expansivity = 2.57E-04 [K^-1]
    END
   END
  END
 END
 FLOW: Flow Analysis 1
  SOLUTION UNITS:
   Angle Units = [rad]
   Length Units = [m]
   Mass Units = [kg]
   Solid Angle Units = [sr]
   Temperature Units = [K]
   Time Units = [s]
  END
  ANALYSIS TYPE:
   Option = Steady State
   EXTERNAL SOLVER COUPLING:
    Option = None
   END
  END
  DOMAIN: Default Domain
   Coord Frame = Coord 0
   Domain Type = Fluid
   Location = B32
   BOUNDARY: inlet
    Boundary Type = INLET
    Location = F197.32
    BOUNDARY CONDITIONS:
     FLOW REGIME:
      Option = Subsonic
     END
     MASS AND MOMENTUM:
      Normal Speed = 0.005 [m s^-1]
      Option = Normal Speed
     END
     TURBULENCE:
      Option = Medium Intensity and Eddy Viscosity Ratio
     END
    END
   END
   BOUNDARY: outlet
    Boundary Type = OUTLET
    Location = F34.32
    BOUNDARY CONDITIONS:
     FLOW REGIME:
      Option = Subsonic
     END
     MASS AND MOMENTUM:
      Option = Average Static Pressure
      Pressure Profile Blend = 0.05
      Relative Pressure = 0 [Pa]
     END
     PRESSURE AVERAGING:
      Option = Average Over Whole Outlet
     END
    END
   END
   BOUNDARY: wall
    Boundary Type = WALL
    Location = F33.32
    BOUNDARY CONDITIONS:
     MASS AND MOMENTUM:
      Option = No Slip Wall
     END
     WALL ROUGHNESS:
      Option = Smooth Wall
     END
    END
   END
   DOMAIN MODELS:
    BUOYANCY MODEL:
     Option = Non Buoyant
    END
    DOMAIN MOTION:
     Option = Stationary
    END
    MESH DEFORMATION:
     Option = None
    END
    REFERENCE PRESSURE:
     Reference Pressure = 1 [atm]
    END
   END
   FLUID DEFINITION: Fluid 1
    Material = Water
    Option = Material Library
    MORPHOLOGY:
     Option = Continuous Fluid
    END
   END
   FLUID MODELS:
    COMBUSTION MODEL:
     Option = None
    END
    HEAT TRANSFER MODEL:
     Fluid Temperature = 25 [C]
     Option = Isothermal
    END
    THERMAL RADIATION MODEL:
     Option = None
    END
    TURBULENCE MODEL:
     Option = k epsilon
    END
    TURBULENT WALL FUNCTIONS:
     Option = Scalable
    END
   END
  END
  OUTPUT CONTROL:
   RESULTS:
    File Compression Level = Default
    Option = Standard
   END
  END
  SOLVER CONTROL:
   Turbulence Numerics = First Order
   ADVECTION SCHEME:
    Option = High Resolution
   END
   CONVERGENCE CONTROL:
    Length Scale Option = Conservative
    Maximum Number of Iterations = 100
    Minimum Number of Iterations = 1
    Timescale Control = Auto Timescale
    Timescale Factor = 1.0
   END
   CONVERGENCE CRITERIA:
    Residual Target = 1.E-4
    Residual Type = RMS
   END
   DYNAMIC MODEL CONTROL:
    Global Dynamic Model Control = On
   END
   INTERRUPT CONTROL:
    Option = Any Interrupt
    CONVERGENCE CONDITIONS:
     Option = Default Conditions
    END
   END
  END
 END
 COMMAND FILE:
  Version = 21.1
  Results Version = 21.1
 END
 SIMULATION CONTROL:
  EXECUTION CONTROL:
   EXECUTABLE SELECTION:
    Double Precision = No
    Large Problem = No
   END
   INTERPOLATOR STEP CONTROL:
    Runtime Priority = Standard
    MEMORY CONTROL:
     Memory Allocation Factor = 1.0
    END
   END
   PARALLEL HOST LIBRARY:
    HOST DEFINITION: ---------
     Host Architecture String = winnt-amd64
     Installation Root = C:\Program Files\ANSYS Inc\v%v\CFX
    END
   END
   PARTITIONER STEP CONTROL:
    Multidomain Option = Automatic
    Runtime Priority = Standard
    MEMORY CONTROL:
     Memory Allocation Factor = 1.0
    END
    PARTITION SMOOTHING:
     Maximum Partition Smoothing Sweeps = 100
     Option = Smooth
    END
    PARTITIONING TYPE:
     MeTiS Type = k-way
     Option = MeTiS
     Partition Size Rule = Automatic
    END
   END
   RUN DEFINITION:
    Run Mode = Full
    Solver Input File = CFD 2022.def
    Solver Results File = \
     C:/Users/Stefano.CHIETI/Desktop/----------/-CFD_pending/dp0_CFX_Solution/CFD 2022_003.res
   END
   SOLVER STEP CONTROL:
    Runtime Priority = Standard
    MEMORY CONTROL:
     Memory Allocation Factor = 1.0
    END
    PARALLEL ENVIRONMENT:
     Number of Processes = 1
     Start Method = Serial
    END
   END
  END
 END
Â
Â
 +--------------------------------------------------------------------+
 |                                   |
 |                Solver                |
 |                                   |
 +--------------------------------------------------------------------+
ÂÂ
 +--------------------------------------------------------------------+
 |                                   |
 |            ANSYS(R) CFX(R) Solver            |
 |                                   | +--------------------------------------------------------------------+
 |         An error has occurred in cfx5solve:         |
 |                                   |
 | The ANSYS CFX solver exited with return code 1.  No results file  |
 | has been created.                          |
 +--------------------------------------------------------------------+End of solution stage.
 +--------------------------------------------------------------------+
 | For CFX runs launched from Workbench, the final locations of    |
 | directories and files generated may differ from those shown.    |
 +--------------------------------------------------------------------+
This run of the ANSYS CFX Solver has finished. -
May 25, 2023 at 10:15 amNickFLSubscriber
Â
Ok, I think you are at the limit of how I can help. My suggest course would be:
Â
- Uninstall. Restart the computer. Reinstall & make sure your antivirus software is turned off (yep, sometimes that is necessary). And if you are going to reinstall, you may as well upgrade.
- Contact your IT team at school or work. They might know a way to identify what is blocking it from running.
-
May 25, 2023 at 10:19 amStefano ChietiSubscriber
The firewall theme was my very first concern.
Hope that will really be the problem.Â
Anyway, a really big thank to you for the support. I'll let you know if and when I'll hopefully find a resolution!
-
May 29, 2023 at 10:57 amStefano ChietiSubscriber
Hello, I finally managed to solve the error.
After many attempts, I uninstalled and reinstalled the software as per Ansys Customer Support suggest.
Probably it was a License Manager release problem that could not update since 2021.
Â
Thank you all again for the support!
-
-
-
- The topic ‘An error has occurred in cfx5solve:The ANSYS CFX solver exited with return code1’ is closed to new replies.
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