Difference between revisions of "Taylor Couette flow by Andras Horvath"
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* '''affiliation''': Rheologic GmbH | * '''affiliation''': Rheologic GmbH | ||
* '''contact''': <mail address='andras.horvath@rheologic.at' description='author'>click here for email address</mail> | * '''contact''': <mail address='andras.horvath@rheologic.at' description='author'>click here for email address</mail> | ||
− | * '''OpenFOAM version''': | + | * '''OpenFOAM version''': v2012 |
+ | * '''Paraview version''': 5.7.0 | ||
* '''published under''': CC BY-ND license ([https://creativecommons.org/licenses creative commons licenses]) | * '''published under''': CC BY-ND license ([https://creativecommons.org/licenses creative commons licenses]) | ||
Latest revision as of 11:06, 4 May 2021
- contributor: Andras Horvath
- affiliation: Rheologic GmbH
- contact: click here for email address
- OpenFOAM version: v2012
- Paraview version: 5.7.0
- published under: CC BY-ND license (creative commons licenses)
Go back to Day 2.
Taylor Couette flow
In this pdf you will find a compact description of a well known flow from literature. In this tutorial you will run a simple steady-state simulation, where you can directly compare the quality of your results with literature values.
You can download the case files here.
In this tutorial we focus on:
- case, geometry and mesh setup
- boundary conditions
- solution evaluation and post processing
- comparison with theory and experiments from literature