Difference between revisions of "Two Dimensional Rising Bubble Benchmark (two cases)"

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	===The benchmark of Hysing et. al===		===The benchmark of Hysing et. al===
−	The test cases and solver as used in [3]:[[Media:TestCasesAndSolver.zip]] eventually rename the variable gamma to alpha1 (both in the test cases and the solver) depending on the version of OF you are using.	+	Hysing et. al published 2009 a pure numerical benchmark with two test cases for a 2D rising bubble. The reference data can be downloaded here [http://www.featflow.de/en/benchmarks/cfdbenchmarking/bubble.html].
		+	The boundary conditions are visualized in the following picture [[Image:TestCase.png|c|center|Initial and boundary conditions]].
−	a[[Image:TestCase.png|center|x]]b → a
−	todo: picture with boundary condition
	todo: table with material proberties		todo: table with material proberties
−	Hysing et. al published 2009 a pure numerical benchmark with two test cases for a 2D rising bubble. The reference data can be downloaded here [http://www.featflow.de/en/benchmarks/cfdbenchmarking/bubble.html].	+	The test cases and solver as used in [3]:[[Media:TestCasesAndSolver.zip]] eventually rename the variable gamma to alpha1 (both in the test cases and the solver) depending on the version of OF you are using.
	==References==		==References==

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Revision as of 09:36, 23 July 2012

1 The benchmark of Hysing et. al

Hysing et. al published 2009 a pure numerical benchmark with two test cases for a 2D rising bubble. The reference data can be downloaded here [1].

The boundary conditions are visualized in the following picture .

todo: table with material proberties

The test cases and solver as used in [3]:Media:TestCasesAndSolver.zip eventually rename the variable gamma to alpha1 (both in the test cases and the solver) depending on the version of OF you are using.

2 References

Hysing, S.; Turek, S.; Kuzmin, D.; Parolini, N.; Burman, E.; Ganesan, S.; Tobiska, L.: Quantitative benchmark computations of two-dimensional bubble dynamics, International Journal for Numerical Methods in Fluids, Volume 60 Issue 11, Pages 1259-1288, DOI: 10.1002/fld.1934, 2009, [2]

Klostermann, J.; Schaake, K.; Schwarze, R.: Numerical simulation of a single rising bubble by VOF with surface compression, International Journal for Numerical Methods in Fluids, Article first published online: 16 JUL 2012, DOI: 10.1002/fld.3692 [3]