Difference between revisions of "T-junction by Bahram Haddadi and colleagues"
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* '''OpenFOAM version''': 2.3.0 | * '''OpenFOAM version''': 2.3.0 | ||
* '''Published under''': CC BY-NC-SA license ([https://creativecommons.org/licenses creative commons licenses]) | * '''Published under''': CC BY-NC-SA license ([https://creativecommons.org/licenses creative commons licenses]) | ||
+ | * '''additional acknowledgements''': Clemens Gößnitzer, Vikram Natarajan, Sylvia Zibuschka, Michael Harasek | ||
Go back to [https://wiki.openfoam.com/index.php?title=Day_2 Day 2]. | Go back to [https://wiki.openfoam.com/index.php?title=Day_2 Day 2]. | ||
− | =[http://cfd.at/downloads/ | + | =[http:// www.cfd.at/downloads/2014_OFoam_Tut_Example%20Ten.pdf T-Junction]= |
− | + | In this [http:// www.cfd.at/downloads/2014_OFoam_Tut_Example%20Ten.pdf pdf] you will find a simple simulation, where you can utilize your gained knowledge so far. You will learn about | |
* understanding RTD calculation using OpenFOAM | * understanding RTD calculation using OpenFOAM | ||
* using multiple solver for a simulation | * using multiple solver for a simulation | ||
* post processing by plotting the step response function and the RTD curve | * post processing by plotting the step response function and the RTD curve |
Revision as of 05:55, 26 September 2016
- author: Bahram Haddadi and Christian Jordan
- affiliation: Forschungsgruppe Thermische Verfahrenstechnik & Fluiddynamische Simulation am Institut für Verfahrenstechnik der Technischen Universität Wien, Austria
- contact: bahram.haddadi.sisakht@tuwien.ac.at
- OpenFOAM version: 2.3.0
- Published under: CC BY-NC-SA license (creative commons licenses)
- additional acknowledgements: Clemens Gößnitzer, Vikram Natarajan, Sylvia Zibuschka, Michael Harasek
Go back to Day 2.
[http:// www.cfd.at/downloads/2014_OFoam_Tut_Example%20Ten.pdf T-Junction]
In this [http:// www.cfd.at/downloads/2014_OFoam_Tut_Example%20Ten.pdf pdf] you will find a simple simulation, where you can utilize your gained knowledge so far. You will learn about
- understanding RTD calculation using OpenFOAM
- using multiple solver for a simulation
- post processing by plotting the step response function and the RTD curve