Difference between revisions of "Vortex shedding by Joel Guerrero 2D"
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=[http://www.wolfdynamics.com/wiki/T5_2D_cylinder.pdf 2D Circular cylinder - Vortex shedding]= | =[http://www.wolfdynamics.com/wiki/T5_2D_cylinder.pdf 2D Circular cylinder - Vortex shedding]= | ||
− | [[File:joegi_f13.png| | + | [[File:joegi_f13.png|500px|right|tut3]] |
In this [http://www.wolfdynamics.com/wiki/T5_2D_cylinder.pdf tutorial], we setup the classical case of the flow around a 2D circular cylinder at various Reynolds number. We use this case to understand how to setup different solvers and physics (laminar, turbulent, compressible). You will learn, | In this [http://www.wolfdynamics.com/wiki/T5_2D_cylinder.pdf tutorial], we setup the classical case of the flow around a 2D circular cylinder at various Reynolds number. We use this case to understand how to setup different solvers and physics (laminar, turbulent, compressible). You will learn, |
Revision as of 21:59, 28 July 2017
- contributor: Joel Guerrero
- affiliation: Universita degli Studi di Genova, Wolf Dynamics
- contact: joel.guerrero@unige.it
- OpenFOAM version: 4.x
- published under: CC BY-SA license (creative commons licenses)
Go back to Day 8.
2D Circular cylinder - Vortex shedding
In this tutorial, we setup the classical case of the flow around a 2D circular cylinder at various Reynolds number. We use this case to understand how to setup different solvers and physics (laminar, turbulent, compressible). You will learn,
- Setting incompressible and compressible cases
- Running laminar and turbulent cases
- Interpreting the results
- Mapping solutions from a coarse mesh to a fine mesh
- Field initialization to speedup the computation
- Converting a mesh to OpenFOAM format
- Sampling, plotting, and scripting
- Field manipulations
- Monitoring the solution
- Running parametrical studies
- Computing and monitoring forces and other quantities of interest
You can download the case files in the following link
Go back to the contributions page.