Difference between revisions of "Contrib icoDyMFoam"
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So, we have standard cavity case extruded in Oz direction. Initial conditions and BCs are the same. Additionally we have passive scalar T, initialized at the center of cavity within a 0.02x0.02x0.02 m3 box with identity value. | So, we have standard cavity case extruded in Oz direction. Initial conditions and BCs are the same. Additionally we have passive scalar T, initialized at the center of cavity within a 0.02x0.02x0.02 m3 box with identity value. | ||
Diffusion coefficient is defined, so the scalar is transported and diffused within the time. | Diffusion coefficient is defined, so the scalar is transported and diffused within the time. | ||
+ | |||
+ | [[File:File:IcoDyMFoam_cavity3d.gif]] | ||
Revision as of 22:10, 28 May 2011
Contents
1 Introduction
This example was inspired by the report of Anne Kösters: Dynamic mesh refinement in dieselFoam. Here you will find source code of the icoDyMFoam solver, cavity3d example case (note, that dymicRefineFvMesh class does not work with 2D case).
2 Results
So, we have standard cavity case extruded in Oz direction. Initial conditions and BCs are the same. Additionally we have passive scalar T, initialized at the center of cavity within a 0.02x0.02x0.02 m3 box with identity value. Diffusion coefficient is defined, so the scalar is transported and diffused within the time.
File:File:IcoDyMFoam cavity3d.gif
3 Outlook
4 Files
5 History
- 28-05-2011: Initial upload
--Makaveli lcf 23:53, 28 May 2011 (CEST)