arXiv:2308.11955 Abstract | arXiv Analytics

arXiv:2308.11955 [physics.flu-dyn]Abstract References Reviews Resources

Stability of variable density rotating flows: Inviscid case and viscous effects in the limit of large Reynolds numbers

C. Jacques, B. Di Pierro, F. Alizard, M. Buffat, A. Cadiou, L. Le Penven

Published 2023-08-23Version 1

Linear stability of solid body rotating flows with axisymmetric density variations is addressed analytically. Considering inviscid disturbances, a non trivial dispersion relation is obtained and it is shown that the instability is of Rayleigh-Taylor type in cylindrical frame. The viscous correction is derived, in the limit of large Reynolds numbers and large azimuthal wave numbers, allowing the determination of the most unstable mode. Theoretical predictions are checked by comparing them to (spectrally accurate) computed eigenvalues and direct numerical simulations.

Journal: Physical Review Fluids, 2023, 8 (3), pp.033901

DOI: 10.1103/PhysRevFluids.8.033901

Categories: physics.flu-dyn

Keywords: large reynolds numbers, variable density rotating flows, inviscid case, viscous effects, non trivial dispersion relation

Tags: journal article

Related articles: Most relevant | Search more

arXiv:0802.3714 [physics.flu-dyn] (Published 2008-02-25)

Scale interactions and scaling laws in rotating flows at moderate Rossby numbers and large Reynolds numbers

P. D. Mininni, A. Alexakis, A. Pouquet

arXiv:2404.04215 [physics.flu-dyn] (Published 2024-04-05)

Lagrangian Particle Tracking at Large Reynolds Numbers

Christian Küchler, Antonio Ibanez Landeta, Jan Molacek, Eberhard Bodenschatz