10.Running the Simulation
After the mesh and solver settings in the Windows terminal, copy the files to
a system where iconCFD could run (such as simulation server) . n Execute runHPC.sh to start simulations.
n Reading the simulation data from iconCFD ( 1/3 )
n In the case of multiple processors
n Put system , constant , processor* , *.foam files to a location accessible by Windows-PC.
n 
In the case of single processor
n Put system , constant , time directories , *.foam files to a location accessible by Windows-PC.
n Selecting the postProcessing method
n Before reading the files, choose to process the results using multiple processors or single processor.
n Reading the simulation data from iconCFD ( 2/3 )
n 
According to whether multiple or single processor(s) are(is)employed, these files are generated by the specified frequency (set in the Solver
Parameter, p. 46) .
n In the case of multiple processors n In the case of single processor
Reading the simulation data from iconCFD ( 3/3 )
n The simulation data could be read via the file “a.foam” in the folder. ”a.foam” is automatically generated using runHPC.sh.
An introduction to the GUI of postProcessing
② Display the temperature
n The physical properties of the wall could be displayed on the group surfaces.
Display the velocity distribution on a slice
n Create a slice to show the velocity distribution
⑥:Display the colorbar Contour map of temperature on solid+velocity distribution on the slice
Hide the group, part and colorbar
Copyright (C) 2015 IDAJ Co., LTD. All Rights Reserved.
