open.foam size: 0 MB
k size: 0.001531 MB
nut size: 0.001419 MB
omega size: 0.001538 MB
p size: 0.001503 MB
U size: 0.001518 MB
transportProperties size: 0.000923 MB
turbulenceProperties size: 0.000981 MB
blockMeshDict size: 0.002337 MB
blockMeshDict1 size: 0.001335 MB
controlDict size: 0.001464 MB
decomposeParDict size: 0.000932 MB
fvSchemes size: 0.001475 MB
fvSolution size: 0.001531 MB
k size: 0.001531 MB
nut size: 0.001419 MB
omega size: 0.001538 MB
p size: 0.001503 MB
U size: 0.001518 MB
transportProperties size: 0.000923 MB
turbulenceProperties size: 0.000981 MB
blockMeshDict size: 0.002337 MB
blockMeshDict1 size: 0.001335 MB
controlDict size: 0.001464 MB
decomposeParDict size: 0.000932 MB
fvSchemes size: 0.001475 MB
fvSolution size: 0.001531 MB
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Openfoam cfd : 2d rectangular cylinder, blockmesh, komegasst, pimplefoam, von karman vortex
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This video shows the results for a simulation I ran on a 2d rectangular cylinder. The mesh was specified using blockMesh, the solver is pimpleFoam, the turbulence model is a komegasst, inlet velocity of 1 m/s, 1x1 m cylinder, and 2 cases (Re = 5e5 & 5e7). Along with velocity and pressure animations (surfaceLIC) the following plots are presented: 1.) Drag vs Time: Case 1 2.) Lift vs Time: Case 1 3.) Drag vs Time: Case 2 4.) Lift vs Time: Case 2 5.) Drag vs Time 6.) Lift vs Time 7.) Pressure on Surfaces: Case 1 8.) Pressure on Surfaces: Case 2 Files: https://github.com/Interfluo/OpenFOAM-pimpleFOAM-Rectangular_Cylinder
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