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Fluid mixing due to Rayleigh–Taylor instability in a time-dependent acceleration field

✍ Scribed by Lili Wang; Jiachun Li

Publisher
Elsevier Science
Year
2005
Tongue
English
Weight
328 KB
Volume
10
Category
Article
ISSN
1007-5704

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✦ Synopsis

The large-eddy simulation is used to study fluid mixing due to Rayleigh-Taylor instability in a timedependent acceleration field. The numerical results show that the two fluids in the mixing layer move back towards their initial position if the acceleration has a sudden change in the direction during evolution process. If the direction inverse happens at the earlier stage while the amplitude of perturbation remains quite small, the two fluids may roughly resume their initial state. However, if the inverse happens at a rather late time and the instability has already evolved into the nonlinear stage, the two fluids can no longer be separated from each other, and there is no distinct interface between them.

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The influence of a vertical magnetic field on the stability of a compressible, inviscid Iluid of variable density is investigated. The solution is characterized by a variational principle. Based on it an approximate solution for the fluid of exponentially varying density, confined between two planes