Difference between revisions of "T-junction by Bahram Haddadi and colleagues"
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− | * ''' | + | [[category:basic tutorial]] |
− | * '''affiliation''': | + | [[category:laminar]] |
− | * '''contact''': bahram.haddadi.sisakht@tuwien.ac.at | + | * '''contributor''': Bahram Haddadi, Clemens Gößnitzer, Sylvia Zibuschka, Yitong Chen |
− | * '''OpenFOAM version''': | + | * '''affiliation''': Institute of Chemical, Environmental and Bioscience Engineering, TU Wien, Austira |
+ | * '''contact''': <mail address='bahram.haddadi.sisakht@tuwien.ac.at' description='author'>click here for email address</mail> | ||
+ | * '''OpenFOAM version''': OpenFOAM v10 | ||
* '''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]) | ||
+ | * '''Editorial board''': Bahram Haddadi, Christian Jordan, Michael Harasek | ||
− | + | =[https://www.fluiddynamics.at/downloads/openfoam-basic-training/_tutorials/Example_Ten.pdf Residence time distribution]= | |
− | + | '''Explanation''': Use simpleFoam and scalarTransportFoam to simulate the flow through a square cross section T pipe and calculate RTD (Residence Time Distribution) for both inlets using a step function injection. | |
− | + | [[File:tuvienna10.png|450px|right|]] | |
− | * | + | '''Objectives''': |
− | * | + | |
− | + | * Understanding RTD calculation using OpenFOAM | |
+ | * Using multiple solver for a simulation | ||
+ | |||
+ | Download pdf [https://www.fluiddynamics.at/downloads/openfoam-basic-training/_tutorials/Example_Ten.pdf here]. | ||
+ | |||
+ | Picture: Bahram Haddadi, TU Wien |
Latest revision as of 13:20, 15 May 2023
- contributor: Bahram Haddadi, Clemens Gößnitzer, Sylvia Zibuschka, Yitong Chen
- affiliation: Institute of Chemical, Environmental and Bioscience Engineering, TU Wien, Austira
- contact: click here for email address
- OpenFOAM version: OpenFOAM v10
- Published under: CC BY-NC-SA license (creative commons licenses)
- Editorial board: Bahram Haddadi, Christian Jordan, Michael Harasek
Residence time distribution
Explanation: Use simpleFoam and scalarTransportFoam to simulate the flow through a square cross section T pipe and calculate RTD (Residence Time Distribution) for both inlets using a step function injection.
Objectives:
- Understanding RTD calculation using OpenFOAM
- Using multiple solver for a simulation
Download pdf here.
Picture: Bahram Haddadi, TU Wien