Difference between revisions of "Theory of mphase"
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=[http://www.wolfdynamics.com/wiki/advanced_multiphase_flows1.pdf Multiphase flows modeling - Separated flows, dispersed flows, and lagrangian particles]= | =[http://www.wolfdynamics.com/wiki/advanced_multiphase_flows1.pdf Multiphase flows modeling - Separated flows, dispersed flows, and lagrangian particles]= | ||
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+ | [[File:joegi_f2.png|450px|right|Multiphase applications]] | ||
In these [http://www.wolfdynamics.com/wiki/advanced_multiphase_flows1.pdf slides], you will find a general introduction to multiphase flows. You will learn about, | In these [http://www.wolfdynamics.com/wiki/advanced_multiphase_flows1.pdf slides], you will find a general introduction to multiphase flows. You will learn about, |
Revision as of 17:21, 28 July 2017
- contributor: Joel Guerrero
- affiliation: Universita degli Studi di Genova, Wolf Dynamics
- contact: click here for email address
- OpenFOAM version: 4.x
- published under: CC BY-SA license (creative commons licenses)
Go back to Day 9.
Multiphase flows modeling - Separated flows, dispersed flows, and lagrangian particles
In these slides, you will find a general introduction to multiphase flows. You will learn about,
- Overview of multiphae modeling approaches
- Multiphase models in OpenFOAM
- Boundary conditions and initial conditions
- How to simulate separated flows in OpenFOAM (VOF method)
- How to simulate dispersed flows in OpenFOAM (multi-fluid and mixing models)
- How to simulate particles in OpenFOAM (VOF method)
- Guidelines and tips
Go back to the contributions page.