The Kelvin–Helmholtz instability emerges in case the velocity shear is distracted in a single continuous fluid. The phenomenon also occurs whilst the velocity difference is an issue throughout the interface between two fluids. It is a common physical incident that can be observed easily in nature; clouds, ocean and so forth. The footage comprises experimental analysis which was carried out by Department of Applied Mathematics and Theoretical Physics (DAMTP) at the University of Cambridge [1]. The numerical study is conducted as to examine the incident in the OpenFOAM environment (ubuntu, openfoam v1612+). The constraints of the numerical analysis can be gone over as follows: - Geometry: 3D, 30 degrees tilted cabinet - Domain: Transient - Phases: Salty-water and water - Method: interFoam, MPI reconstructPar, assembly mesh The footage of the numerical analysis: Any further question would be welcomed such as more on constraints, foam files etc.
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3 Comments
NISHANT
3/16/2018 08:31:46 pm
Hi, I am a research scholar at NIT Manipur, India and working on Instabilities Can I get the foam files of the Kelvin–Helmholtz simulation.
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Piyush Rathi
10/18/2020 01:12:56 am
I am trying to develop instability solver on my own. So can you provide me foam file oh K-H instability?
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Gurjot
5/30/2022 02:40:39 am
Hello, I am Masters student and currently doing project on KH instability. Could you please provide foam files for this. Thanks a lot.
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