# Difference between revisions of "Hysing benchmark by Lionel Gamet"

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[[File:gamet3D.png|400px|right|isosurface alpha=0.5 colored by U t=3.5s]] | [[File:gamet3D.png|400px|right|isosurface alpha=0.5 colored by U t=3.5s]] | ||

− | + | This case is a reference test case for VoF simulations. It is an elementary quantitative benchmark configuration that was originally established in 2D by Hysing et al. [1]. Adelsberger et al. [2] have published a 3D equivalent of the same benchmark. The case consists in a single rising bubble in a quiescent liquid. The test case number 2 as described by Hysing et al. [1] is modeled here. | |

− | + | A video of the 2D case can be downloaded [https://github.com/jnmlujnmlu/OpenFOAMTeaching/blob/master/LionelGamet/alpha.phase1_2D320x640x001.avi here]. | |

+ | A video of the 3D case can be downloaded [https://github.com/jnmlujnmlu/OpenFOAMTeaching/blob/master/LionelGamet/alpha.phase1_3D320x640x320_colored_by_Umag.avi here]. | ||

− | + | The pdf for the 2D case can be found [https://github.com/jnmlujnmlu/OpenFOAMTeaching/blob/master/LionelGamet/HysingBenchmark_2D.pdf here]. | |

− | The | + | The pdf for the 3D case can be found [https://github.com/jnmlujnmlu/OpenFOAMTeaching/blob/master/LionelGamet/HysingBenchmark_3D.pdf here]. |

− | The | + | The case files can be downloaded here: |

− | + | * [https://github.com/jnmlujnmlu/OpenFOAMTeaching/blob/master/LionelGamet/HysingBenchmark_2D_wikitut.zip 2D case] | |

+ | * [https://github.com/jnmlujnmlu/OpenFOAMTeaching/blob/master/LionelGamet/HysingBenchmark_3D_wikitut.zip 3D case] | ||

+ | ==References== | ||

+ | [1] S. Hysing, S. Turek, D. Kuzmin, N. Parolini, E. Burman, S. Ganesan, and L. Tobiska: "Quantitative benchmark computations of two-dimensional bubble dynamics," I.J.N.M.F., vol. 60, no. 11, pp. 1259{1288, 2009. [Online]. Available: http://www.featow.de/en/benchmarks/cfdbenchmarking/bubble.html | ||

− | + | [2] J. Adelsberger, P. Esser, M. Griebel, S. Groß, M. Klitz, and A. Ruttgers: "3D incompressible two-phase flow benchmark computations for rising droplets," 2014, proceedings of the 11th World Congress on Computational Mechanics (WCCM XI), Barcelona, Spain, also available as INS Preprint No. 1401 and as IGPM Preprint No. 393. [Online]. Available: http://wissrech.ins.uni-bonn.de/research/projects/risingbubblebenchmark/ | |

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[[File:gamet2D.png|540px|center|liquid phase fraction t=3s]] | [[File:gamet2D.png|540px|center|liquid phase fraction t=3s]] |

## Revision as of 06:57, 3 August 2020

**contributor**: Lionel Gamet**affiliation**: IFP Energies nouvelles, France**contact**: click here for email address**OpenFOAM version**: v1812**Published under**: CC BY-NC-SA license (creative commons licenses)

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# Hysing benchmark

This case is a reference test case for VoF simulations. It is an elementary quantitative benchmark configuration that was originally established in 2D by Hysing et al. [1]. Adelsberger et al. [2] have published a 3D equivalent of the same benchmark. The case consists in a single rising bubble in a quiescent liquid. The test case number 2 as described by Hysing et al. [1] is modeled here.

A video of the 2D case can be downloaded here.

A video of the 3D case can be downloaded here.

The pdf for the 2D case can be found here.

The pdf for the 3D case can be found here.

The case files can be downloaded here:

## References

[1] S. Hysing, S. Turek, D. Kuzmin, N. Parolini, E. Burman, S. Ganesan, and L. Tobiska: "Quantitative benchmark computations of two-dimensional bubble dynamics," I.J.N.M.F., vol. 60, no. 11, pp. 1259{1288, 2009. [Online]. Available: http://www.featow.de/en/benchmarks/cfdbenchmarking/bubble.html

[2] J. Adelsberger, P. Esser, M. Griebel, S. Groß, M. Klitz, and A. Ruttgers: "3D incompressible two-phase flow benchmark computations for rising droplets," 2014, proceedings of the 11th World Congress on Computational Mechanics (WCCM XI), Barcelona, Spain, also available as INS Preprint No. 1401 and as IGPM Preprint No. 393. [Online]. Available: http://wissrech.ins.uni-bonn.de/research/projects/risingbubblebenchmark/