Mean flow anisotropy without waves in rotating turbulence

Autor: Peter J. Thomas, Alban Pothérat, J. A. Brons
Jazyk: angličtina
Rok vydání: 2020
Předmět:
ISSN: 0022-1120
Popis: We tackle the question of how anisotropy in flows subject to background rotation favours structures elongated along the rotation axis, especially in turbulent flows. A new, wave-free mechanism is identified that challenges the current understanding of the process. Inertial waves propagating near the rotation axis are generally accepted as the most efficient mechanism to transport energy anisotropically. They have been shown to transfer energy to large anisotropic, columnar structures. Nevertheless, they cannot account for the formation of simpler steady anisotropic phenomena such as Taylor columns. Here, we experimentally show that more than one mechanism involving the Coriolis force may promote anisotropy. In particular, in the limit of fast rotation, that is at low Rossby number, anisotropy favouring the direction of rotation of the average of a turbulent flow arises neither because of inertial waves nor following the same mechanism as in steady Taylor columns, but from an interplay between the Coriolis force and average advection.
17 pages, 10 figures, submitted to Jour. Fluid Mech
Databáze: OpenAIRE