Difference between revisions of "Compressible flows by Joel Guerrero2"
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=[http://www.wolfdynamics.com/validations/expansion_fan/tut_expansion_fan.pdf Supersonic flow past an expansion corner - Expansion fan]= | =[http://www.wolfdynamics.com/validations/expansion_fan/tut_expansion_fan.pdf Supersonic flow past an expansion corner - Expansion fan]= | ||
| − | [[File:expansion_fan1.png|1000px|right| | + | [[File:expansion_fan1.png|1000px|right|Expansion corner]] |
In this [http://www.wolfdynamics.com/validations/expansion_fan/tut_expansion_fan.pdf tutorial], we simulate the flow past an expansion corner. The inlet Mach number is 2.5, and the expansion corner angle is 15 degrees. You will learn about, | In this [http://www.wolfdynamics.com/validations/expansion_fan/tut_expansion_fan.pdf tutorial], we simulate the flow past an expansion corner. The inlet Mach number is 2.5, and the expansion corner angle is 15 degrees. You will learn about, | ||
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| − | You can download the case files | + | You can download the case files at this [http://www.wolfdynamics.com/validations/expansion_fan/expansion_fan.tar.gz link]. |
Go back to the [https://wiki.openfoam.com/Collection_by_authors#Joel_Guerrero contributions page]. | Go back to the [https://wiki.openfoam.com/Collection_by_authors#Joel_Guerrero contributions page]. | ||
Latest revision as of 09:55, 6 January 2020
- contributor: Joel Guerrero
- affiliation: Universita degli Studi di Genova, Wolf Dynamics
- contact: click here for email address
- OpenFOAM version: 7
- published under: CC BY-SA license (creative commons licenses)
Supersonic flow past an expansion corner - Expansion fan
In this tutorial, we simulate the flow past an expansion corner. The inlet Mach number is 2.5, and the expansion corner angle is 15 degrees. You will learn about,
- Running compressible flow simulations.
- Running supersonic flow simulations.
- Setting the thermophysical properties for the working fluid.
- Setting a robust numeric for compressible-supersonic flow simulations.
- How to use steady solvers with high-speed compressible flow.
- Computing the Mach number.
- Sampling and plotting
You can download the case files at this link.
Go back to the contributions page.
