Main OFTutorials
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Revision as of 16:28, 14 July 2009 by Chiubacca688 (Talk | contribs)
Descriptions of the tutorials (with pictures)
Contents
- 1 boundaryFoam
- 2 bubbleFoam
- 3 buoyantFoam
- 4 buoyantSimpleFoam
- 5 channelOodles
- 6 contactStressFoam
- 7 coodles
- 8 dieselFoam
- 9 dnsFoam
- 10 electrostaticFoam
- 11 engineFoam
- 12 financialFoam
- 13 icoFoam
- 14 icoFoamAutoMotion
- 15 icoTopoFoam
- 16 interFoam
- 17 damBreak Tutorial
- 17.1 laplacianFoam
- 17.2 lesInterFoam
- 17.3 mhdFoam
- 17.4 nonNewtonianIcoFoam
- 17.5 oodles
- 17.6 potentialFoam
- 17.7 rasInterFoam
- 17.8 reactingFoam
- 17.9 rhopSonicFoam
- 17.10 rhoSonicFoam
- 17.11 rhoTurbFoam
- 17.12 scalarTransportFoam
- 17.13 settlingFoam
- 17.14 shipFoam
- 17.15 simpleFoam
- 17.16 sonicFoam
- 17.17 sonicLiquidFoam
- 17.18 sonicTurbFoam
- 17.19 stressedFoam
- 17.20 stressFemFoam
- 17.21 turbFoam
- 17.22 XiFoam
- 17.23 Xoodles
1 boundaryFoam
2 bubbleFoam
3 buoyantFoam
4 buoyantSimpleFoam
5 channelOodles
6 contactStressFoam
7 coodles
8 dieselFoam
9 dnsFoam
10 electrostaticFoam
11 engineFoam
12 financialFoam
13 icoFoam
Lid-driven cavity flow. Left, right, and bottom walls are stationary. Top wall moves to the right, causing rotation in the fluid.
14 icoFoamAutoMotion
15 icoTopoFoam
Tutorial for OpenFOAM dynamic mesh, Part I: attachDetach Media:OpenFOAM-Dynamic-Mesh-attachDetach.odt.gz
test case file for OpenFOAM dynamic mesh, Part I: attachDetach Media:attachDetachTJunction-1.2-hsieh.tar.gz
16 interFoam
17 damBreak Tutorial
17.1 laplacianFoam
17.2 lesInterFoam
17.3 mhdFoam
17.4 nonNewtonianIcoFoam
17.5 oodles
17.6 potentialFoam
17.7 rasInterFoam
17.8 reactingFoam
- A first tutorial case for this solver
17.9 rhopSonicFoam
17.10 rhoSonicFoam
17.11 rhoTurbFoam
17.12 scalarTransportFoam
17.13 settlingFoam
17.14 shipFoam
17.15 simpleFoam
17.16 sonicFoam
17.17 sonicLiquidFoam
The basic tutorial case for sonicLiquidFoam is given on pg. 64 of hte Programmers Guide to OpenFOAM. The case describes decompression of a tank. The tank is initially filled with stationary liquid and the pressure is released at an outlet.