This run of the CFX-14.0 Solver started at 16:39:49 on 14 June
2013 by user Puju on PUJU-PC (amd_opteron.sse2_winnt) using the
command: "C:\Program Files\ANSYS
Inc\v130\CFX\bin\perllib\cfx5solve.pl" -batch -ccl runInput.ccl
-fullname "HSSL_6 DES_001" Setting up CFX Solver run ...
+--------------------------------------------------------------------+
| | | CFX Command Language for Run | | |
+--------------------------------------------------------------------+
LIBRARY: CEL: EXPRESSIONS: AriaIntrare = 0.0001539 [m^2]
ConcentratiaMasicaS1 = (DebMsolS1/ DebMamS1)*100 DebMamS1 =
DebMapaS1 +DebMsolS1 DebMamS2 = DebMapaS2 +DebMsolS2 DebMamS3 =
DebMapaS3 +DebMsolS3 DebMamS4 = DebMapaS4 +DebMsolS4 DebMamS5 =
DebMapaS5 +DebMsolS5 DebMamS6 = DebMapaS6 +DebMsolS6 DebMamS7 =
DebMapaS7 +DebMsolS7 DebMapaS1 = 0.11419 [kg s^-1] DebMapaS2 =
0.11407 [kg s^-1] DebMapaS3 = 0.11389 [kg s^-1] DebMapaS4 = 0.11364
[kg s^-1] DebMapaS5 = 0.11368 [kg s^-1] DebMapaS6 = 0.11352 [kg
s^-1] DebMapaS7 = 0.12416 [kg s^-1] DebMsolS1 = 1.634e-3[kg s^-1]
DebMsolS2 = 2.04e-3 [kg s^-1] DebMsolS3 = 2.445e-3 [kg s^-1]
DebMsolS4 = 2.848e-3 [kg s^-1] DebMsolS5 = 3.009e-3 [kg s^-1]
DebMsolS6 = 3.251e-3 [kg s^-1] DebMsolS7 = 3.64e-3 [kg s^-1]
DensApa = 998 [kg m^-3] DensitateSolid = 2650 [kg m^-3]
DensitateSuspensieS1 = 1.0069e3 [kg m^-3] DensitateSuspensieS2 =
1.0091e3 [kg m^-3] DensitateSuspensieS3 = 1.0112e3 [kg m^-3]
DensitateSuspensieS4 = 1.0134e3 [kg m^-3] DensitateSuspensieS5 =
1.0143e3 [kg m^-3] DensitateSuspensieS6 = 1.0156e3 [kg m^-3]
DensitateSuspensieS7 = 1.016e3 [kg m^-3] Dh = 0.014[m] DmedS1 =
80.47 [micron] DmedS2 = 87.18 [micron] DmedS3 = 93.36 [micron]
DmedS4 = 97.63 [micron] DmedS5 = 104 [micron] DmedS6 = 106.2
[micron] DmedS7 = 107.41 [micron] FVapaS1 = 0.9946 FVapaS2 = 0.9933
FVapaS3 = 0.992 FVapaS4 = 0.9907 FVapaS5 = 0.9901 FVapaS6 = 0.9893
FVapaS7 = 0.9891 FVsolS1 = 1-FVapaS1 FVsolS2 = 1-FVapaS2 FVsolS3 =
1-FVapaS3 FVsolS4 = 1-FVapaS4 FVsolS5 = 1-FVapaS5 FVsolS6 =
1-FVapaS6 FVsolS7 = 1-FVapaS7 I = 0.037 PresIntrare =
areaAve(p)@Intrare PresSupr = areaAve(p)@Suprascurgere VitSolid =
DebMsolS1 /(AriaIntrare*DensitateSolid) VitSuspensie = DebMamS1
/(AriaIntrare * DensitateSuspensieS1) Volum = 0.000534889[m^3]
deltaP = areaAve(p )@Intrare -areaAve(p)@Suprascurgere eps =
(ka^1.5)/(0.3*Dh) ka = 1.5*(I^2)*(VitSuspensie^2) END END
COORDINATE FRAME DEFINITIONS: COORDINATE FRAME: Coord 1 Centroid
Type = Absolute Invert Normal Axis Direction = Off Location =
F27.25 Option = Point and Normal Origin = 0.0688812 [m], 0.200441
[m], -2.97492e-007 [m] Point on Axis 3 = 0.0688812 [m], -0.799559
[m], -2.97492e-007 [m] Point on Plane 13 = 1 [m], 0 [m], 0 [m]
Reference Coord Frame = Coord 0 END COORDINATE FRAME: Coord 2
Centroid Type = Absolute Invert Normal Axis Direction = Off
Location = F41.25 Option = Point and Normal Origin = -0.0200005
[m], 0.1275 [m], 0.04 [m] Point on Axis 3 = -0.0200005 [m], 0.1275
[m], 1.04 [m] Point on Plane 13 = 1 [m], 0 [m], 0 [m] Reference
Coord Frame = Coord 0 END END MATERIAL: Asphalt Material Group =
CHT Solids,Particle Solids Option = Pure Substance Thermodynamic
State = Solid PROPERTIES: Option = General Material EQUATION OF
STATE: Density = 2650 [kg m^-3] Molar Mass = 1 [kg kmol^-1] Option
= Value END SPECIFIC HEAT CAPACITY: Option = Value Specific Heat
Capacity = 9.20E+02 [J kg^-1 K^-1] END REFERENCE STATE: Option =
Specified Point Reference Specific Enthalpy = 0 [J/kg] Reference
Specific Entropy = 0 [J/kg/K] Reference Temperature = 25 [C] END
THERMAL CONDUCTIVITY: Option = Value Thermal Conductivity = 0.062
[W m^-1 K^-1] END END END MATERIAL: Nisip Material Group = User
Materials List = Asphalt Option = Fixed Composition Mixture CHILD
MATERIAL: Asphalt Mass Fraction = 1 Option = Mass Fraction END
MIXTURE PROPERTIES: Option = Ideal Mixture DYNAMIC VISCOSITY:
Dynamic Viscosity = 1 [Pa s] Option = Value END END END 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 = Transient EXTERNAL
SOLVER COUPLING: Option = None END INITIAL TIME: Option = Automatic
with Value Time = 0 [s] END TIME DURATION: Option = Total Time
Total Time = 2 [s] END TIME STEPS: Option = Timesteps Timesteps =
0.01 [s] END END DOMAIN: Ciclon Coord Frame = Coord 0 Domain Type =
Fluid Location = Assembly BOUNDARY: Ciclon Default Boundary Type =
WALL Location = \
F26.25,F28.25,F29.25,F30.25,F31.25,F32.25,F33.25,F34.25,F35.25,F36.25\
,F37.25,F39.25,F40.25,F42.25,F43.25,F44.25,F45.25,F46.25,F47.25
BOUNDARY CONDITIONS: MASS AND MOMENTUM: Option = Fluid Dependent
END WALL CONTACT MODEL: Option = Use Volume Fraction END WALL
ROUGHNESS: Option = Smooth Wall END END FLUID: Nisip BOUNDARY
CONDITIONS: MASS AND MOMENTUM: Option = No Slip Wall END END END
FLUID: Water BOUNDARY CONDITIONS: MASS AND MOMENTUM: Option = No
Slip Wall END END END END BOUNDARY: Intrare Boundary Type = INLET
Location = F41.25 BOUNDARY CONDITIONS: FLOW REGIME: Option =
Subsonic END MASS AND MOMENTUM: Option = Fluid Velocity END
TURBULENCE: Option = Fluid Dependent END END FLUID: Nisip BOUNDARY
CONDITIONS: FLOW DIRECTION: Option = Normal to Boundary Condition
END SIZE GROUP: Group 1 Option = Value Size Fraction = 0.03 END
SIZE GROUP: Group 2 Option = Value Size Fraction = 0.06 END SIZE
GROUP: Group 3 Option = Value Size Fraction = 0.1 END SIZE GROUP:
Group 4 Option = Value Size Fraction = 0.15 END SIZE GROUP: Group 5
Option = Value Size Fraction = 0.28 END SIZE GROUP: Group 6 Option
= Value Size Fraction = 0.16 END SIZE GROUP: Group 7 Option = Value
Size Fraction = 0.22 END VELOCITY: Mass Flow Rate = DebMsolS1
Option = Mass Flow Rate END VOLUME FRACTION: Option = Value Volume
Fraction = FVsolS1 END END END FLUID: Water BOUNDARY CONDITIONS:
FLOW DIRECTION: Option = Normal to Boundary Condition END
TURBULENCE: Epsilon = eps Option = k and Epsilon k = ka END
VELOCITY: Mass Flow Rate = DebMapaS1 Option = Mass Flow Rate END
VOLUME FRACTION: Option = Value Volume Fraction = FVapaS1 END END
END END BOUNDARY: Scurgere Boundary Type = OUTLET Location = F38.25
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: Suprascurgere
Boundary Type = OUTLET Location = F27.25 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 DOMAIN MODELS: BUOYANCY MODEL: Buoyancy Reference Density =
998 [kg m^-3] 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: Nisip Material = Nisip Option = Material Library
MORPHOLOGY: Option = Polydispersed Fluid END END FLUID DEFINITION:
Water Material = Water Option = Material Library MORPHOLOGY: Option
= Continuous Fluid END END FLUID MODELS: COMBUSTION MODEL: Option =
None END FLUID: Nisip FLUID BUOYANCY MODEL: Option = Density
Difference END TURBULENCE MODEL: Option = Dispersed Phase Zero
Equation END END FLUID: Water FLUID BUOYANCY MODEL: Option =
Density Difference END TURBULENCE MODEL: Option = DES SST BUOYANCY
TURBULENCE: Option = None END END TURBULENT WALL FUNCTIONS: Option
= Automatic END END HEAT TRANSFER MODEL: Homogeneous Model = False
Option = None END THERMAL RADIATION MODEL: Option = None END
TURBULENCE MODEL: Homogeneous Model = False Option = Fluid
Dependent END END FLUID PAIR: Nisip | Water INTERPHASE TRANSFER
MODEL: Option = Particle Model END MASS TRANSFER: Option = None END
MOMENTUM TRANSFER: DRAG FORCE: Option = Schiller Naumann END LIFT
FORCE: Lift Coefficient = 0.5 Option = Lift Coefficient END
TURBULENT DISPERSION FORCE: Option = None END VIRTUAL MASS FORCE:
Option = None END WALL LUBRICATION FORCE: Option = None END END
TURBULENCE TRANSFER: ENHANCED TURBULENCE PRODUCTION MODEL: Option =
None END END END INITIALISATION: Option = Automatic FLUID: Nisip
INITIAL CONDITIONS: Velocity Type = Cylindrical CYLINDRICAL
VELOCITY COMPONENTS: Option = Automatic with Value Velocity Axial
Component = 0 [m s^-1] Velocity Theta Component = 0 [m s^-1]
Velocity r Component = 0 [m s^-1] AXIS DEFINITION: Option =
Coordinate Axis Rotation Axis = Coord 0.2 END END SIZE GROUP: Group
1 Option = Automatic with Value Size Fraction = 0.03 END SIZE
GROUP: Group 2 Option = Automatic with Value Size Fraction = 0.06
END SIZE GROUP: Group 3 Option = Automatic with Value Size Fraction
= 0.1 END SIZE GROUP: Group 4 Option = Automatic with Value Size
Fraction = 0.15 END SIZE GROUP: Group 5 Option = Automatic with
Value Size Fraction = 0.28 END SIZE GROUP: Group 6 Option =
Automatic with Value Size Fraction = 0.16 END SIZE GROUP: Group 7
Option = Automatic with Value Size Fraction = 0.22 END VOLUME
FRACTION: Option = Automatic with Value Volume Fraction = FVsolS1
END END END FLUID: Water INITIAL CONDITIONS: Velocity Type =
Cylindrical CYLINDRICAL VELOCITY COMPONENTS: Option = Automatic
with Value Velocity Axial Component = 0 [m s^-1] Velocity Theta
Component = 0 [m s^-1] Velocity r Component = 0 [m s^-1] AXIS
DEFINITION: Option = Coordinate Axis Rotation Axis = Coord 0.2 END
END TURBULENCE INITIAL CONDITIONS: Option = k and Epsilon EPSILON:
Epsilon = eps Option = Automatic with Value END K: Option =
Automatic with Value k = ka END END VOLUME FRACTION: Option =
Automatic with Value Volume Fraction = FVapaS1 END END END INITIAL
CONDITIONS: STATIC PRESSURE: Option = Automatic with Value Relative
Pressure = 0 [Pa] END END END MULTIPHASE MODELS: Homogeneous Model
= False FREE SURFACE MODEL: Option = None END POLYDISPERSED FLUID:
Musig Fluid 1 Option = Homogeneous MUSIG Polydispersed Fluid =
Nisip BREAKUP MODEL: Option = None END COALESCENCE MODEL: Option =
None END SIZE GROUP DISTRIBUTION: Number of Size Groups = 7 Option
= User Defined SIZE GROUP: Group 1 Option = Definition
Polydispersed Fluid = Nisip Size Group Diameter = 12 [micron] END
SIZE GROUP: Group 2 Option = Definition Polydispersed Fluid = Nisip
Size Group Diameter = 17 [micron] END SIZE GROUP: Group 3 Option =
Definition Polydispersed Fluid = Nisip Size Group Diameter = 58
[micron] END SIZE GROUP: Group 4 Option = Definition Polydispersed
Fluid = Nisip Size Group Diameter = 75 [micron] END SIZE GROUP:
Group 5 Option = Definition Polydispersed Fluid = Nisip Size Group
Diameter = 110 [micron] END SIZE GROUP: Group 6 Option = Definition
Polydispersed Fluid = Nisip Size Group Diameter = 121 [micron] END
SIZE GROUP: Group 7 Option = Definition Polydispersed Fluid = Nisip
Size Group Diameter = 132 [micron] END END END END END OUTPUT
CONTROL: MONITOR OBJECTS: Monitor Coefficient Loop Convergence =
False MONITOR BALANCES: Option = Full END MONITOR FORCES: Option =
Full END MONITOR PARTICLES: Option = Full END MONITOR POINT:
Monitor Point 1 Cartesian Coordinates = 0.0[m],0.0[m],0.0[m] Coord
Frame = Coord 0 Option = Cartesian Coordinates Output Variables
List = Vorticity END MONITOR POINT: Monitor Point 2 Cartesian
Coordinates = 0.0[m],0.0[m],0.0[m] Coord Frame = Coord 1 Option =
Cartesian Coordinates Output Variables List = Vorticity END MONITOR
POINT: Monitor Point 3 Cartesian Coordinates = 0.0[m],0.0[m],0.0[m]
Coord Frame = Coord 2 Option = Cartesian Coordinates Output
Variables List = Vorticity END MONITOR RESIDUALS: Option = Full END
MONITOR TOTALS: Option = Full END END RESULTS: File Compression
Level = Default Option = Standard END TRANSIENT RESULTS: Transient
Results 1 File Compression Level = Default Option = Standard OUTPUT
FREQUENCY: Option = Time Interval Time Interval = 2 [s] END END END
SOLVER CONTROL: Turbulence Numerics = First Order ADVECTION SCHEME:
Option = High Resolution END CONVERGENCE CONTROL: Maximum Number of
Coefficient Loops = 1 Minimum Number of Coefficient Loops = 1
Timescale Control = Coefficient Loops END CONVERGENCE CRITERIA:
Conservation Target = 0.01 Residual Target = 1.E-4 Residual Type =
RMS END TRANSIENT SCHEME: Option = Second Order Backward Euler
TIMESTEP INITIALISATION: Option = Automatic END END END EXPERT
PARAMETERS: include pref in forces = t transient initialisation
override = t END END COMMAND FILE: Version = 13.0 Results Version =
13.0 END SIMULATION CONTROL: EXECUTION CONTROL: EXECUTABLE
SELECTION: Double Precision = Off END INTERPOLATOR STEP CONTROL:
Runtime Priority = Standard MEMORY CONTROL: Memory Allocation
Factor = 1.0 END END PARALLEL HOST LIBRARY: HOST DEFINITION: pujupc
Remote Host Name = PUJU-PC Host Architecture String = winnt
Installation Root = C:\Program Files\ANSYS Inc\v%v\CFX END END
PARTITIONER STEP CONTROL: Multidomain Option = Independent
Partitioning Runtime Priority = Standard EXECUTABLE SELECTION: Use
Large Problem Partitioner = Off END MEMORY CONTROL: Memory
Allocation Factor = 1.0 END PARTITIONING TYPE: MeTiS Type = k-way
Option = MeTiS Partition Size Rule = Automatic END END RUN
DEFINITION: Run Mode = Full Solver Input File = HSSL_6 DES.def 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
+--------------------------------------------------------------------+
| | | Solver | | |
+--------------------------------------------------------------------+
+--------------------------------------------------------------------+
| | | ANSYS CFX Solver 13.0 | | | | Version 2010.10.01-23.02 Sat
Oct 2 02:26:59 GMTDT 2010 | | | | Executable Attributes | | | |
single-int32-32bit-novc8-noifort-novc6-optimised-supfort-noprof-nos|
| | | Copyright 2010 ANSYS Inc. |
+--------------------------------------------------------------------+
+--------------------------------------------------------------------+
| Job Information |
+--------------------------------------------------------------------+
Run mode: serial run
Host computer: PUJU-PC (PID:5508) Job started: Mon Mar 14
16:39:57 2011
+--------------------------------------------------------------------+
| Memory Allocated for Run (Actual usage may be less) |
+--------------------------------------------------------------------+
Data Type Kwords Words/Node Words/Elem Kbytes Bytes/Node Real
30746.4 1575.52 319.15 120103.0 6302.10 Integer 4376.5 224.26 45.43
17095.6 897.05 Character 3739.7 191.63 38.82 3652.1 191.63 Logical
80.0 4.10 0.83 312.5 16.40 Double 602.5 30.88 6.25 4707.3
247.00
+--------------------------------------------------------------------+
| MUSIG Size Group Information |
+--------------------------------------------------------------------+
Domain name : Ciclon
MUSIG fluid : Musig Fluid 1
Group Polydispersed Fluid Diameter Mass Group 1 Nisip 1.2000E-05
2.3977E-12 Group 2 Nisip 1.7000E-05 6.8170E-12 Group 3 Nisip
5.8000E-05 2.7073E-10 Group 4 Nisip 7.5000E-05 5.8537E-10 Group 5
Nisip 1.1000E-04 1.8468E-09 Group 6 Nisip 1.2100E-04 2.4581E-09
Group 7 Nisip 1.3200E-04 3.1913E-09
+--------------------------------------------------------------------+
| Mesh Statistics |
+--------------------------------------------------------------------+
| Domain Name | Orthog. Angle | Exp. Factor | Aspect Ratio |
+----------------------+---------------+--------------+--------------+
| | Minimum [deg] | Maximum | Maximum |
+----------------------+---------------+--------------+--------------+
| Ciclon | 44.3 ok | 46 ! | 14 OK |
+----------------------+---------------+--------------+--------------+
| | %! %ok %OK | %! %ok %OK | %! %ok %OK |
+----------------------+---------------+--------------+--------------+
| Ciclon | 0
