TAGGED: ansys-cfx, domain-initialization
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November 26, 2024 at 2:07 pm3nhu1Subscriber
Hello Ansys Learning Support Team,
I used the tutorial provided here https://innovationspace.ansys.com/knowledge/forums/topic/how-to-access-the-value-of-an-expression-at-the-previous-time-step-without-using-userfortran/ to get the value of an expression at the previous timestep without using UserFortan, this was by using a monitor point and arithmetic sum method above. (I didn't used the derivative method as I need to run the simulation in steady as well). I have managed to use this to get the value of p(t-1) and q(t-1) for previous timestep for 3 outlets. Thank you.
As my simulation is unstable at initialisation due to the 2 small outlets, I've had to run a steady simulation to initialise this see below table for variables obtained. The steady simulation also finished with the p(t) and q(t) current timestep which can be used. Then I also defined the p(t-1) and q(t-1) terms to be inialised when starting the transient simulation as it initialises at 0 by the solver by default otherwise (due to automatic with value) causing those 2 small outlets to diverge.
| Courant Number | 2.27E-05 | 5.65E+02 |
| Density | 1.06E+03 | 1.06E+03 |
| Pressure | 7.91E+03 | 8.31E+03 |
| pout0prev | 8.31E+03 | 8.31E+03 |
| pout1prev | 8.31E+03 | 8.31E+03 |
| pout2prev | 8.31E+03 | 8.31E+03 |
| qout0prev | -9.59E-07 | -9.59E-07 |
| qout1prev | 1.13E-06 | 1.13E-06 |
| qout2prev | 1.39E-06 | 1.39E-06 |
| Velocity | 5.53E-10 | 7.13E-01 |
| Dynamic Viscosity | 4.00E-03 | 4.00E-03 |However when I now set up the transient model, having tried to create the AVs and linked to default domain expressions, I am now getting this error. I would be very grateful for your assistance and can send the CFX file to an Ansys Employee. This is the error The parameter 'Expression Value' is defined to be Single Valued but it depends on the field variable: qout0prev Error processing expression: Expression Value = pout0
The outfile is also attached https://file.io/lUM5QWd7b99y
Outfile
This run of the CFX 2024 R1 Solver started at 13:36:36 on 26 Nov 2024
by user e_yong on WIN-1 (amd_opteron.sse2_winnt) using the command:
"C:\Program Files\ANSYS Inc\v241\CFX\bin\perllib\cfx5solve.pl"
-stdout-comms -batch -ccl -
2024 R1
Point Releases and Patches installed:
Ansys, Inc. License Manager 2024 R1
Viewer 2024 R1
Discovery 2024 R1
Icepak (includes CFD-Post) 2024 R1
Fluids 2024 R1
CFD-Post only 2024 R1
SpaceClaim 2024 R1
CFX (includes CFD-Post) 2024 R1
Chemkin 2024 R1
FENSAP-ICE 2024 R1
Fluent (includes CFD-Post) 2024 R1
Polyflow (includes CFD-Post) 2024 R1
Forte (includes EnSight) 2024 R1
TurboGrid 2024 R1
ACIS Geometry Interface 2024 R1
AutoCAD Geometry Interface 2024 R1
Catia, Version 4 Geometry Interface 2024 R1
Catia, Version 5 Geometry Interface 2024 R1
Catia, Version 6 Geometry Interface 2024 R1
Creo Elements/Direct Modeling Geometry Interface 2024 R1
Creo Parametric Geometry Interface 2024 R1
Inventor Geometry Interface 2024 R1
JTOpen Geometry Interface 2024 R1
NX Geometry Interface 2024 R1
Parasolid Geometry Interface 2024 R1
Solid Edge Geometry Interface 2024 R1
SOLIDWORKS Geometry Interface 2024 R1
Remote Solve Manager Standalone Services 2024 R1
Sound - SAS 2024 R1
Setting up CFX Solver run ...
+--------------------------------------------------------------------+
| |
| CFX Command Language for Run |
| |
+--------------------------------------------------------------------+
LIBRARY:
CEL:
EXPRESSIONS:
LVP = Scaled Left Ventricular Pressure Waveform mmHg 10 cycle 1s \
period.Pressure(t)
LVPprev = Scaled Left Ventricular Pressure Waveform mmHg 10 cycle 1s \
period.Pressure(t-0.001[s] )
RVP = Scaled Right Ventricular Pressure Waveform mmHg 10 cycle 1s \
period.Pressure(t)
RVPprev = Scaled Right Ventricular Pressure Waveform mmHg 10 cycle 1s \
period.Pressure(t-0.001[s] )
pout0 = ((areaAve(pout0prev)@OutAorta*(cp0*res0d/dt)) + \
(res0d*(qout0*(1+(res0p/res0d)+(cp0*res0p/dt))- (qout0prev)* \
(cp0*res0p/dt))))*(1/(1+(cp0*res0d/dt)))
pout0prevvalue = probe(Expression Value.Arithmetic \
Sum)@MPcurrentoutletp - probe(Expression Value)@MPcurrentoutletp
pout1 = \
(areaAve(pout1prev)@out1+(qout1*(dt/cp1+res1p+(dt*res1p/(res1d*cp1)))\
+RVP-RVPprev-((qout1prev)*res1p)))/(1+(dt/(res1d*cp1)))
pout1prevvalue = probe(Expression Value.Arithmetic Sum)@MPcurrentout1p \
- probe(Expression Value)@MPcurrentout1p
pout2 = \
(areaAve(pout2prev)@out2+(qout2*(dt/cp2+res2p+(dt*res2p/(res2d*cp2)))\
+LVP-LVPprev-((qout2prev)*res2p)))/(1+(dt/(res2d*cp2)))
pout2prevvalue = probe(Expression Value.Arithmetic Sum)@MPcurrentout2p \
- probe(Expression Value)@MPcurrentout2p
qout0 = -massFlow()@OutAorta/1060 [kg/m^3]
qout0prevvalue = probe(Expression Value.Arithmetic \
Sum)@MPcurrentoutletflow - probe(Expression Value)@MPcurrentoutletflow
qout1 = -massFlow()@out1/1060 [kg/m^3]
qout1prevvalue = probe(Expression Value.Arithmetic \
Sum)@MPcurrentqout1flow - probe(Expression Value)@MPcurrentqout1flow
qout2 = -massFlow()@out2/1060 [kg/m^3]
qout2prevvalue = probe(Expression Value.Arithmetic \
Sum)@MPcurrentqout2flow - probe(Expression Value)@MPcurrentqout2flow
res0 = 1562.5 [g cm^-4 s^-1]
res0d = 0.91*res0
res0p = 0.09*res0
res1 = 72818.6 [g cm^-4 s^-1]*ahyp
res1d = 0.15*res1
res1p = 0.84*res1
res2 = 77316.1 [g cm^-4 s^-1]*ahyp
res2d = 0.15*res2
res2p = 0.84*res2
END
FUNCTION: Inflow Aorta Mass Flow Rate 10 cycle 1s period
Argument Units = [s]
Extend Max = true
Extend Min = true
Option = Profile Data
Spatial Fields = Time
DATA FIELD: Mass Flow Rate
Field Name = Mass Flow Rate
Parameter List = Injection Mass Flow Rate
Result Units = [g s^-1]
END
DATA SOURCE:
Option = Internal
END
END
FUNCTION: Scaled Left Ventricular Pressure Waveform mmHg 10 cycle 1s \
period
Argument Units = [s]
Extend Max = true
Extend Min = true
Option = Profile Data
Spatial Fields = Time
DATA FIELD: Pressure
Field Name = Pressure
Parameter List = Pressure Profile Shape,Relative Pressure,Relative \
Pressure in Gas,Relative Static Pressure,Relative Total Pressure
Result Units = [mmHg]
END
DATA SOURCE:
Option = Internal
END
END
FUNCTION: Scaled Right Ventricular Pressure Waveform mmHg 10 cycle 1s \
period
Argument Units = [s]
Extend Max = true
Extend Min = true
Option = Profile Data
Spatial Fields = Time
DATA FIELD: Pressure
Field Name = Pressure
Parameter List = Pressure Profile Shape,Relative Pressure,Relative \
Pressure in Gas,Relative Static Pressure,Relative Total Pressure
Result Units = [mmHg]
END
DATA SOURCE:
Option = Internal
END
END
END
ADDITIONAL VARIABLE: pout0prev
Option = Definition
Tensor Type = SCALAR
Units = [mmHg]
Variable Type = Unspecified
END
ADDITIONAL VARIABLE: pout1prev
Option = Definition
Tensor Type = SCALAR
Units = [mmHg]
Variable Type = Unspecified
END
ADDITIONAL VARIABLE: pout2prev
Option = Definition
Tensor Type = SCALAR
Units = [mmHg]
Variable Type = Unspecified
END
ADDITIONAL VARIABLE: qout0prev
Option = Definition
Tensor Type = SCALAR
Units = [m^3/s]
Variable Type = Unspecified
END
ADDITIONAL VARIABLE: qout1prev
Option = Definition
Tensor Type = SCALAR
Units = [m^3/s]
Variable Type = Unspecified
END
ADDITIONAL VARIABLE: qout2prev
Option = Definition
Tensor Type = SCALAR
Units = [m^3/s]
Variable Type = Unspecified
END
MATERIAL: Blood
Material Group = User
Option = Pure Substance
PROPERTIES:
Option = General Material
EQUATION OF STATE:
Density = 1060 [kg m^-3]
Molar Mass = 1.0 [kg kmol^-1]
Option = Value
END
DYNAMIC VISCOSITY:
Dynamic Viscosity = 0.004 [Pa s]
Option = Value
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 = dt
END
END
DOMAIN: Default Domain
Coord Frame = Coord 0
Domain Type = Fluid
Location = simplifiedgeom fluid
BOUNDARY: InAorta
Boundary Type = INLET
Location = from simplifiedgeom to inflow mass flow inlet
Use Profile Data = False
BOUNDARY CONDITIONS:
FLOW DIRECTION:
Option = Normal to Boundary Condition
END
FLOW REGIME:
Option = Subsonic
END
MASS AND MOMENTUM:
Mass Flow Rate = Inflow Aorta Mass Flow Rate 10 cycle 1s \
period.Mass Flow Rate(Time)
Mass Flow Rate Area = As Specified
Option = Mass Flow Rate
END
END
END
BOUNDARY: OutAorta
Boundary Type = OPENING
Location = from simplifiedgeom to outflow outflow
Use Profile Data = False
BOUNDARY CONDITIONS:
FLOW DIRECTION:
Option = Normal to Boundary Condition
END
FLOW REGIME:
Option = Subsonic
END
MASS AND MOMENTUM:
Option = Opening Pressure and Direction
Relative Pressure = pout0
END
END
END
BOUNDARY: Wall
Boundary Type = WALL
Location = from simplifiedgeom to background wall
Use Profile Data = False
BOUNDARY CONDITIONS:
MASS AND MOMENTUM:
Option = No Slip Wall
END
END
END
BOUNDARY: out1
Boundary Type = OPENING
Location = from simplifiedgeom to out1 outlet vent
Use Profile Data = False
BOUNDARY CONDITIONS:
FLOW DIRECTION:
Option = Normal to Boundary Condition
END
FLOW REGIME:
Option = Subsonic
END
MASS AND MOMENTUM:
Option = Opening Pressure and Direction
Relative Pressure = pout1
END
END
END
BOUNDARY: out2
Boundary Type = OPENING
Location = from simplifiedgeom to out2 outlet vent
Use Profile Data = False
BOUNDARY CONDITIONS:
FLOW DIRECTION:
Option = Normal to Boundary Condition
END
FLOW REGIME:
Option = Subsonic
END
MASS AND MOMENTUM:
Option = Opening Pressure and Direction
Relative Pressure = pout2
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 = 0 [atm]
END
END
FLUID DEFINITION: Fluid 1
Material = Blood
Option = Material Library
MORPHOLOGY:
Option = Continuous Fluid
END
END
FLUID MODELS:
ADDITIONAL VARIABLE: pout0prev
Additional Variable Value = pout0prevvalue
Option = Algebraic Equation
END
ADDITIONAL VARIABLE: pout1prev
Additional Variable Value = pout1prevvalue
Option = Algebraic Equation
END
ADDITIONAL VARIABLE: pout2prev
Additional Variable Value = pout2prevvalue
Option = Algebraic Equation
END
ADDITIONAL VARIABLE: qout0prev
Additional Variable Value = qout0prevvalue
Option = Algebraic Equation
END
ADDITIONAL VARIABLE: qout1prev
Additional Variable Value = qout1prevvalue
Option = Algebraic Equation
END
ADDITIONAL VARIABLE: qout2prev
Additional Variable Value = qout2prevvalue
Option = Algebraic Equation
END
COMBUSTION MODEL:
Option = None
END
HEAT TRANSFER MODEL:
Option = None
END
THERMAL RADIATION MODEL:
Option = None
END
TURBULENCE MODEL:
Option = Laminar
END
END
END
INITIALISATION:
Option = Automatic
INITIAL CONDITIONS:
Velocity Type = Cartesian
CARTESIAN VELOCITY COMPONENTS:
Option = Automatic with Value
U = 0 [m s^-1]
V = 0 [m s^-1]
W = 0 [m s^-1]
END
STATIC PRESSURE:
Option = Automatic with Value
Relative Pressure = 63 [mm Hg]
END
END
END
OUTPUT CONTROL:
MONITOR OBJECTS:
MONITOR BALANCES:
Option = Full
END
MONITOR FORCES:
Option = Full
END
MONITOR PARTICLES:
Option = Full
END
MONITOR POINT: MPcurrentout1p
Coord Frame = Coord 0
Expression Value = pout1
Option = Expression
MONITOR STATISTICS:
Allow Running Statistics = On
Option = Moving Interval
Statistics List = Arithmetic Sum
INTERVAL DEFINITION:
Number of Timesteps = 2
Option = Timesteps
END
END
END
MONITOR POINT: MPcurrentout2p
Coord Frame = Coord 0
Expression Value = pout2
Option = Expression
MONITOR STATISTICS:
Allow Running Statistics = On
Option = Moving Interval
Statistics List = Arithmetic Sum
INTERVAL DEFINITION:
Number of Timesteps = 2
Option = Timesteps
END
END
END
MONITOR POINT: MPcurrentoutletflow
Coord Frame = Coord 0
Expression Value = qout0
Option = Expression
MONITOR STATISTICS:
Allow Running Statistics = On
Option = Moving Interval
Statistics List = Arithmetic Sum
INTERVAL DEFINITION:
Number of Timesteps = 2
Option = Timesteps
END
END
END
MONITOR POINT: MPcurrentoutletp
Coord Frame = Coord 0
Expression Value = pout0
Option = Expression
MONITOR STATISTICS:
Allow Running Statistics = On
Option = Moving Interval
Statistics List = Arithmetic Sum
INTERVAL DEFINITION:
Number of Timesteps = 2
Option = Timesteps
END
END
END
MONITOR POINT: MPcurrentqout1flow
Coord Frame = Coord 0
Expression Value = qout1
Option = Expression
MONITOR STATISTICS:
Allow Running Statistics = On
Option = Moving Interval
Statistics List = Arithmetic Sum
INTERVAL DEFINITION:
Number of Timesteps = 2
Option = Timesteps
END
END
END
MONITOR POINT: MPcurrentqout2flow
Coord Frame = Coord 0
Expression Value = qout2
Option = Expression
MONITOR STATISTICS:
Allow Running Statistics = On
Option = Moving Interval
Statistics List = Arithmetic Sum
INTERVAL DEFINITION:
Number of Timesteps = 2
Option = Timesteps
END
END
END
MONITOR POINT: MPpreviousout1p
Coord Frame = Coord 0
Expression Value = pout1prevvalue
Option = Expression
END
MONITOR POINT: MPpreviousout2p
Coord Frame = Coord 0
Expression Value = pout2prevvalue
Option = Expression
END
MONITOR POINT: MPpreviousoutletflow
Coord Frame = Coord 0
Expression Value = qout0prevvalue
Option = Expression
END
MONITOR POINT: MPpreviousoutletp
Coord Frame = Coord 0
Expression Value = pout0prevvalue
Option = Expression
END
MONITOR POINT: MPpreviousqout1flow
Coord Frame = Coord 0
Expression Value = qout1prevvalue
Option = Expression
END
MONITOR POINT: MPpreviousqout2flow
Coord Frame = Coord 0
Expression Value = qout2prevvalue
Option = Expression
END
MONITOR POINT: Monitor Point 1
Cartesian Coordinates = 0.00572361 [m], -0.00108951 [m], 0.0484329 [m]
Coord Frame = Coord 0
Option = Cartesian Coordinates
Output Variables List = Absolute Pressure
MONITOR LOCATION CONTROL:
Interpolation Type = Nearest Vertex
END
POSITION UPDATE FREQUENCY:
Option = Initial Mesh Only
END
END
MONITOR POINT: Monitor Point LAD
Cartesian Coordinates = 0.0568741 [m], -0.00608401 [m], 0.0129885 [m]
Coord Frame = Coord 0
Option = Cartesian Coordinates
Output Variables List = Absolute Pressure
MONITOR LOCATION CONTROL:
Interpolation Type = Nearest Vertex
END
POSITION UPDATE FREQUENCY:
Option = Initial Mesh Only
END
END
MONITOR POINT: Monitor Point RCA
Cartesian Coordinates = -0.0412365 [m], -0.0119797 [m], 0.0153338 [m]
Coord Frame = Coord 0
Option = Cartesian Coordinates
Output Variables List = Absolute Pressure
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
TRANSIENT RESULTS: Transient Results 1
File Compression Level = Default
Include Mesh = No
Option = Selected Variables
Output Variables List = Pressure,Velocity
OUTPUT FREQUENCY:
Option = Time List
Time List = 1 [s], 1.01 [s], 1.02 [s], 1.03 [s], 1.04 [s], 1.05 [s], \
1.06 [s], 1.07 [s], 1.08 [s], 1.09 [s], 1.1 [s], 1.11 [s], 1.12 \
[s], 1.13 [s], 1.14 [s], 1.15 [s], 1.16 [s], 1.17 [s], 1.18 [s], \
1.19 [s], 1.2 [s], 1.21 [s], 1.22 [s], 1.23 [s], 1.24 [s], 1.25 \
[s], 1.26 [s], 1.27 [s], 1.28 [s], 1.29 [s], 1.3 [s], 1.31 [s], \
1.32 [s], 1.33 [s], 1.34 [s], 1.35 [s], 1.36 [s], 1.37 [s], 1.38 \
[s], 1.39 [s], 1.4 [s], 1.41 [s], 1.42 [s], 1.43 [s], 1.44 [s], \
1.45 [s], 1.46 [s], 1.47 [s], 1.48 [s], 1.49 [s], 1.5 [s], 1.51 \
[s], 1.52 [s], 1.53 [s], 1.54 [s], 1.55 [s], 1.56 [s], 1.57 [s], \
1.58 [s], 1.59 [s], 1.6 [s], 1.61 [s], 1.62 [s], 1.63 [s], 1.64 \
[s], 1.65 [s], 1.66 [s], 1.67 [s], 1.68 [s], 1.69 [s], 1.7 [s], \
1.71 [s], 1.72 [s], 1.73 [s], 1.74 [s], 1.75 [s], 1.76 [s], 1.77 \
[s], 1.78 [s], 1.79 [s], 1.8 [s], 1.81 [s], 1.82 [s], 1.83 [s], \
1.84 [s], 1.85 [s], 1.86 [s], 1.87 [s], 1.88 [s], 1.89 [s], 1.9 \
[s], 1.91 [s], 1.92 [s], 1.93 [s], 1.94 [s], 1.95 [s], 1.96 [s], \
1.97 [s], 1.98 [s], 1.99 [s], 2 [s]
END
END
END
SOLVER CONTROL:
ADVECTION SCHEME:
Option = High Resolution
END
CONVERGENCE CONTROL:
Maximum Number of Coefficient Loops = 20
Minimum Number of Coefficient Loops = 3
Timescale Control = Coefficient Loops
END
CONVERGENCE CRITERIA:
Residual Target = 1e-5
Residual Type = RMS
END
INTERRUPT CONTROL:
Option = Any Interrupt
CONVERGENCE CONDITIONS:
Option = Default Conditions
END
END
TRANSIENT SCHEME:
Option = Second Order Backward Euler
TIMESTEP INITIALISATION:
Option = Automatic
END
END
END
END
COMMAND FILE:
Version = 24.1
Results Version = 24.1
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
Option = Model Based
END
END
PARALLEL HOST LIBRARY:
HOST DEFINITION: win1
Remote Host Name = WIN-1
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
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
Partition Weight Factors = 0.08333, 0.08333, 0.08333, 0.08333, \
0.08333, 0.08333, 0.08333, 0.08333, 0.08333, 0.08333, 0.08333, \
0.08333
END
END
RUN DEFINITION:
Run Mode = Full
Solver Input File = D:\Temp\e_yong\CFD\Monitor Point Way 2\Better \
initialise\SimplifiedGeometryBase_MP_3EWKIMP_complex_alldone_inied_be\
t2.def
Solver Results File = D:\Temp\e_yong\CFD\Monitor Point Way 2\Better \
initialise\SimplifiedGeometryBase_MP_3EWKIMP_complex_alldone_inied_be\
t2_001.res
INITIAL VALUES SPECIFICATION:
INITIAL VALUES CONTROL:
Use Mesh From = Solver Input File
END
INITIAL VALUES: Initial Values 1
File Name = D:/Temp/e_yong/CFD/Monitor Point Way 2/Better \
initialise/SimplifiedGeometryBase_MP_3EWKIMP_complex_alldone_ini_\
bet_001.res
Option = Results File
END
END
END
SOLVER STEP CONTROL:
Runtime Priority = Standard
MEMORY CONTROL:
Memory Allocation Factor = 1.0
Option = Model Based
END
PARALLEL ENVIRONMENT:
Number of Processes = 12
Start Method = Intel MPI Local Parallel
Parallel Host List = win1*12
END
END
END
END
+--------------------------------------------------------------------+
| |
| Interpolation of Initial Values |
| |
+--------------------------------------------------------------------+
+--------------------------------------------------------------------+
| |
| ANSYS(R) CFX(R) Interpolator |
| |
| 2024 R1 |
| Build 24.1 2023-11-06T16:24:29.753953 |
| Mon Nov 6 17:03:59 GMTST 2023 |
| |
| Executable Attributes |
| |
| double-64bit-int32-archfort-optimised-std-lcomp |
| |
| (C) 1996-2024 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. |
+--------------------------------------------------------------------+
+--------------------------------------------------------------------+
| Job Information at Start of Run |
+--------------------------------------------------------------------+ Run mode: serial run Host computer: WIN-1 (PID:288020) Job started: Tue Nov 26 13:36:38 2024
+--------------------------------------------------------------------+
| Initial Memory Allocation (Actual usage may vary) |
+--------------------------------------------------------------------+ | Real | Integer | Character | Logical | Double
----------+------------+------------+-----------+----------+----------
Mwords | 30.40 | 36.19 | 0.20 | 0.01 | 0.30
Mbytes | 231.95 | 138.05 | 0.19 | 0.04 | 2.29
----------+------------+------------+-----------+----------+----------
+--------------------------------------------------------------------+
| Host Memory Information (Mbytes): Interpolator |
+--------------------------------------------------------------------+
| Host | System | Allocated | % |
+-------------------------+----------------+----------------+--------+
| WIN-1 | 523878.43 | 372.52 | 0.07 |
+-------------------------+----------------+----------------+--------+ ======================================================================
Interpolating Onto Domain "Default Domain"
====================================================================== Total Number of Nodes in the Target Domain = 552268
Bounding Box Volume of the Target Mesh = 1.42880E-04
Checking all source domains from the source file:
Target mesh is the same as domain "Default Domain". Start direct copying of variables from domain "Default Domain". +--------------------------------------------------------------------+
| Variable Range Information |
+--------------------------------------------------------------------+
+--------------------------------------------------------------------+
| Variable Name | min | max |
+--------------------------------------------------------------------+
| Courant Number | 2.27E-05 | 5.65E+02 |
| Density | 1.06E+03 | 1.06E+03 |
| Pressure | 7.91E+03 | 8.31E+03 |
| pout0prev | 8.31E+03 | 8.31E+03 |
| pout1prev | 8.31E+03 | 8.31E+03 |
| pout2prev | 8.31E+03 | 8.31E+03 |
| qout0prev | -9.59E-07 | -9.59E-07 |
| qout1prev | 1.13E-06 | 1.13E-06 |
| qout2prev | 1.39E-06 | 1.39E-06 |
| Velocity | 5.53E-10 | 7.13E-01 |
| Dynamic Viscosity | 4.00E-03 | 4.00E-03 |
+--------------------------------------------------------------------+
+--------------------------------------------------------------------+
| Host Memory Information (Mbytes): Interpolator |
+--------------------------------------------------------------------+
| Host | System | Peak | % |
+-------------------------+----------------+----------------+--------+
| WIN-1 | 523878.43 | 81.72 | 0.02 |
+-------------------------+----------------+----------------+--------+ +--------------------------------------------------------------------+
| CPU Time Requirements of Interpolator |
+--------------------------------------------------------------------+
Interpolation Step Time Percentage
(secs. %total)
----------------------------------------------------------------------
Tree Setup 2.75E-01 18.2 %
Interpolation 4.20E-02 2.8 %
Miscellaneous 1.19E+00 79.0 %
--------
Total 1.51E+00 +--------------------------------------------------------------------+
| Job Information at End of Run |
+--------------------------------------------------------------------+ Host computer: WIN-1 (PID:288020) Job finished: Tue Nov 26 13:36:39 2024 Total wall clock time: 8.370E-01 seconds
or: ( 0: 0: 0: 0.837 )
( Days: Hours: Minutes: Seconds ) The parameter 'Expression Value' is defined to be Single Valued but it depends on the field variable: qout0prev
Error processing expression: Expression Value = pout0
+--------------------------------------------------------------------+
| An error has occurred in cfx5solve: |
| |
| C:\Program Files\ANSYS |
| Inc\v241\CFX\bin\winnt-amd64\double\ccl2flow.exe was interrupted |
| by signal QUIT (3) |
+--------------------------------------------------------------------+
This run of the ANSYS CFX Solver has finished.
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