 LIBRARY:
   MATERIAL: Air at 25 C
     Material Description = Air at 25 C and 1 atm (dry)
     Material Group = Air Data,Constant Property Gases
     Option = Pure Substance
     Thermodynamic State = Gas
     PROPERTIES:
       Option = General Material
       EQUATION OF STATE:
         Density = 1.185 [kg m^-3]
         Molar Mass = 28.966 [kg kmol^-1]
         Option = Value
       END
       SPECIFIC HEAT CAPACITY:
         Option = Value
         Specific Heat Capacity = 1005 [J kg^-1 K^-1]
         Specific Heat Type = Constant Pressure
       END
       REFERENCE STATE:
         Option = Specified Point
         Reference Pressure = 1 [atm]
         Reference Specific Enthalpy = 0. [J/kg]
         Reference Specific Entropy = 0. [J/kg/K]
         Reference Temperature = 25 [C]
       END
       DYNAMIC VISCOSITY:
         Dynamic Viscosity = 1.81e-5 [kg m^-1 s^-1]
         Option = Value
       END
       THERMAL CONDUCTIVITY:
         Option = Value
         Thermal Conductivity = 2.61E-02 [W m^-1 K^-1]
       END
       ABSORPTION COEFFICIENT:
         Absorption Coefficient = 0.01 [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 = 0.003356 [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 = fluid
     BOUNDARY: ColdWall
       Boundary Type = WALL
       Location = coldwall
       BOUNDARY CONDITIONS:
         HEAT TRANSFER:
           Fixed Temperature = 288.25 [K]
           Option = Fixed Temperature
         END
         MASS AND MOMENTUM:
           Option = No Slip Wall
         END
         WALL ROUGHNESS:
           Option = Smooth Wall
         END
       END
     END
     BOUNDARY: HotWall
       Boundary Type = WALL
       Location = hotwall
       BOUNDARY CONDITIONS:
         HEAT TRANSFER:
           Fixed Temperature = 307.85 [K]
           Option = Fixed Temperature
         END
         MASS AND MOMENTUM:
           Option = No Slip Wall
         END
         WALL ROUGHNESS:
           Option = Smooth Wall
         END
       END
     END
     BOUNDARY: bottomwall
       Boundary Type = WALL
       Location = bottomwall
       BOUNDARY CONDITIONS:
         HEAT TRANSFER:
           Option = Adiabatic
         END
         MASS AND MOMENTUM:
           Option = No Slip Wall
         END
         WALL ROUGHNESS:
           Option = Smooth Wall
         END
       END
     END
     BOUNDARY: sym1
       Boundary Type = SYMMETRY
       Location = Primitive 2D A
     END
     BOUNDARY: sym2
       Boundary Type = SYMMETRY
       Location = Primitive 2D B
     END
     BOUNDARY: topwall
       Boundary Type = WALL
       Location = topwall
       BOUNDARY CONDITIONS:
         HEAT TRANSFER:
           Option = Adiabatic
         END
         MASS AND MOMENTUM:
           Option = No Slip Wall
         END
         WALL ROUGHNESS:
           Option = Smooth Wall
         END
       END
     END
     DOMAIN MODELS:
       BUOYANCY MODEL:
         Buoyancy Reference Temperature = 298.05 [K]
         Gravity X Component = 0 [m s^-2]
         Gravity Y Component = -9.81 [m s^-2]
         Gravity Z Component = 0 [m s^-2]
         Option = Buoyant
         BUOYANCY REFERENCE LOCATION:
           Option = Automatic
         END
       END
       DOMAIN MOTION:
         Option = Stationary
       END
       MESH DEFORMATION:
         Option = None
       END
       REFERENCE PRESSURE:
         Reference Pressure = 1 [atm]
       END
     END
     FLUID DEFINITION: Fluid 1
       Material = Air at 25 C
       Option = Material Library
       MORPHOLOGY:
         Option = Continuous Fluid
       END
     END
     FLUID MODELS:
       COMBUSTION MODEL:
         Option = None
       END
       HEAT TRANSFER MODEL:
         Include Viscous Dissipation Term = On
         Option = Thermal Energy
       END
       THERMAL RADIATION MODEL:
         Option = None
       END
       TURBULENCE MODEL:
         Option = SST
         BUOYANCY TURBULENCE:
           Option = None
         END
       END
       TURBULENT WALL FUNCTIONS:
         Option = Automatic
       END
     END
   END
   OUTPUT CONTROL:
     MONITOR OBJECTS:
       MONITOR BALANCES:
         Option = Full
       END
       MONITOR FORCES:
         Option = Full
       END
       MONITOR PARTICLES:
         Option = Full
       END
       MONITOR POINT: Monitor Point 1
         Cartesian Coordinates = 0.005 [m], 1.09 [m], 0 [m]
         Coord Frame = Coord 0
         Option = Cartesian Coordinates
         Output Variables List = Temperature,Velocity
         MONITOR LOCATION CONTROL:
           Interpolation Type = Nearest Vertex
         END
         POSITION UPDATE FREQUENCY:
           Option = Initial Mesh Only
         END
       END
       MONITOR POINT: Monitor Point 2
         Cartesian Coordinates = 0.07 [m], 1.09 [m], 0 [m]
         Coord Frame = Coord 0
         Option = Cartesian Coordinates
         Output Variables List = Temperature,Velocity
         MONITOR LOCATION CONTROL:
           Interpolation Type = Nearest Vertex
         END
         POSITION UPDATE FREQUENCY:
           Option = Initial Mesh Only
         END
       END
       MONITOR RESIDUALS:
         Option = Full
       END
       MONITOR TOTALS:
         Option = Full
       END
     END
     RESULTS:
       File Compression Level = Default
       Option = Standard
     END
   END
   SOLVER CONTROL:
     Turbulence Numerics = High Resolution
     ADVECTION SCHEME:
       Option = High Resolution
     END
     CONVERGENCE CONTROL:
       Length Scale Option = Conservative
       Maximum Number of Iterations = 700
       Minimum Number of Iterations = 1
       Timescale Control = Auto Timescale
       Timescale Factor = 1.0
     END
     CONVERGENCE CRITERIA:
       Residual Target = 1e-5
       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 = 24.1
   Results Version = 24.1
 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
         Option = Model Based
       END
     END
     PARALLEL HOST LIBRARY:
       HOST DEFINITION: nspczhangyang
         Remote Host Name = NSPC-ZHANGYANG
         Host Architecture String = winnt-amd64
         Installation Root = D:\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
         Option = Model Based
       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 = \
         D:/Code/Practice/VMFL052_Fluent_WB/input/VMFL052_CFX.def
       Solver Results File = \
         D:\Code\Practice\VMFL078_CFX\input\VMFL052_CFX_001.res
     END
     SOLVER STEP CONTROL:
       Runtime Priority = Standard
       MEMORY CONTROL:
         Memory Allocation Factor = 1.0
         Option = Model Based
       END
       PARALLEL ENVIRONMENT:
         Number of Processes = 1
         Start Method = Serial
       END
     END
   END
 END