Supplementary material to "A single oblate spheroid settling in unbounded ambient fluid: a benchmark for simulations in steady and unsteady wake regimes"
dataset
posted on 28.01.2021, 11:55 authored by Manuel Moriche GuerreroManuel Moriche Guerrero, Jan Dusek, M. (Markus) UhlmannThe results contained in the data files correspond to a single
oblate spheroid with geometrical aspect ratio 1.1 or 1.5. Different
Galileo numbers ranging from 100 to 220 as well as different density
ratios can be found.
The data presented here has been obtained with a spectral/spectral-element
method and is intended to be used for benchmarking purposes.
and unsteady wake regimes", to be submitted to Int. J. Multiphase Flow
# Contact
manuel.guerrero@kit.edu
markus.uhlmann@kit.edu
oblate spheroid with geometrical aspect ratio 1.1 or 1.5. Different
Galileo numbers ranging from 100 to 220 as well as different density
ratios can be found.
The data presented here has been obtained with a spectral/spectral-element
method and is intended to be used for benchmarking purposes.
# References
M. Moriche & M. Uhlmann, "A single oblate spheroid settling in
unbounded ambient fluid: a benchmark for simulations in steady and unsteady wake regimes", to be submitted to Int. J. Multiphase Flow
# Contact
manuel.guerrero@kit.edu
markus.uhlmann@kit.edu
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