Publikationstyp: | Lehrmaterial |
Titel: | Tutorial on OpenFOAM & kaleidosim : computational parameter study of 300 cases in 25 min with kaleidoscope feature |
Autor/-in: | Boiger, Gernot Kurt Sharman, Darren Michel Rivero, Jhimy Siyahhan, Bercan Lienhard, Viktor Boldrini, Marlon |
et. al: | No |
Erscheinungsdatum: | Sep-2021 |
Verlag / Hrsg. Institution: | ZHAW School of Engineering, ICP Institute of Computational Physics |
Sprache: | Englisch |
Schlagwörter: | OpenFOAM; Kaleidosim; Kaleidoscope; Parameter study; CFD; Simulation; Multipysics; Cloud computing; RAS; Turbulence modeling; MSCC |
Fachgebiet (DDC): | 005: Computerprogrammierung, Programme und Daten 530: Physik |
Zusammenfassung: | This is the second video (see first one here: https://youtu.be/6T08Li7gVqE ) about introducing the Kaleidoscope Feature within the Kaleidosim cloud platform: Prof. G. Boiger of ZHAW/ICP uses OpenFOAM's Motorbike tutorial case in simpleFoam mode to demonstrate. This time a very large computational parameter study involving the RAS turbulence model parameters 'turbulent kinetic energy' and 'omega', is conducted based on just one single base case. The base case is uploaded to the cloud and multiplied within seconds to yield not less than 300 individual OpenFOAM simulation cases. All cases are then computed simultaneously in the cloud (MSCC Massive Simultaneous Cloud Computing) and the entire study is completed in only about 25min. Regarding post processing: Paraview screenshots are being automatically created per simulation run in the cloud using Paraview-Batch-Mode via a prepared #Python script that was uploaded along with the OpenFOAM case (for 'how to' see also: https://youtu.be/EzmkmrDnu0Y ). Finally (visualised) results can be selectively downloaded from the cloud using the Katana File Downloader function. |
Weitere Angaben: | YouTube |
URI: | https://youtu.be/ALlzZhuXLTE https://digitalcollection.zhaw.ch/handle/11475/23832 |
Lizenz (gemäss Verlagsvertrag): | Keine Angabe |
Departement: | School of Engineering |
Organisationseinheit: | Institute of Computational Physics (ICP) |
Publiziert im Rahmen des ZHAW-Projekts: | GeoCloud – Simulation Software for Cloud-based Digital Microstructure Design of New Fuel Cell Materials |
Enthalten in den Sammlungen: | Publikationen School of Engineering |
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Boiger, G. K., Sharman, D., Michel Rivero, J., Siyahhan, B., Lienhard, V., & Boldrini, M. (2021). Tutorial on OpenFOAM & kaleidosim : computational parameter study of 300 cases in 25 min with kaleidoscope feature. ZHAW School of Engineering, ICP Institute of Computational Physics. https://youtu.be/ALlzZhuXLTE
Boiger, G.K. et al. (2021) Tutorial on OpenFOAM & kaleidosim : computational parameter study of 300 cases in 25 min with kaleidoscope feature. ZHAW School of Engineering, ICP Institute of Computational Physics. Available at: https://youtu.be/ALlzZhuXLTE.
G. K. Boiger, D. Sharman, J. Michel Rivero, B. Siyahhan, V. Lienhard, and M. Boldrini, Tutorial on OpenFOAM & kaleidosim : computational parameter study of 300 cases in 25 min with kaleidoscope feature. ZHAW School of Engineering, ICP Institute of Computational Physics, 2021. [Online]. Available: https://youtu.be/ALlzZhuXLTE
BOIGER, Gernot Kurt, Darren SHARMAN, Jhimy MICHEL RIVERO, Bercan SIYAHHAN, Viktor LIENHARD und Marlon BOLDRINI, 2021. Tutorial on OpenFOAM & kaleidosim : computational parameter study of 300 cases in 25 min with kaleidoscope feature [online]. ZHAW School of Engineering, ICP Institute of Computational Physics. Verfügbar unter: https://youtu.be/ALlzZhuXLTE
Boiger, Gernot Kurt, Darren Sharman, Jhimy Michel Rivero, Bercan Siyahhan, Viktor Lienhard, and Marlon Boldrini. 2021. Tutorial on OpenFOAM & Kaleidosim : Computational Parameter Study of 300 Cases in 25 Min with Kaleidoscope Feature. ZHAW School of Engineering, ICP Institute of Computational Physics. https://youtu.be/ALlzZhuXLTE.
Boiger, Gernot Kurt, et al. Tutorial on OpenFOAM & Kaleidosim : Computational Parameter Study of 300 Cases in 25 Min with Kaleidoscope Feature. ZHAW School of Engineering, ICP Institute of Computational Physics, 2021, https://youtu.be/ALlzZhuXLTE.
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