Self-similarity of strongly stratified inviscid flowsReport as inadecuate

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* Corresponding author 1 LadHyX - Laboratoire d-hydrodynamique 2 CNRM - Centre national de recherches météorologiques

Abstract : It is well-known that strongly stratified flows are organized into a layered pancake structure in which motions are mostly horizontal but highly variable in the vertical direction. However, what determines the vertical scale of the motion remains an open question. In this paper, we propose a scaling law for this vertical scale Lu when no vertical lengthscales are imposed by initial or boundary conditions and when the fluid is strongly stratified, i.e., when the horizontal Froude number is small: Fh=U-NLh - 1, where U is the magnitude of the horizontal velocity, N the Brunt-Vïsälä frequency and Lh the horizontal lengthscale. Specifically, we show that the vertical scale of the motion is Lv=U-N by demonstrating that the inviscid governing equations in the limit Fh?O, without any a priori assumption on the magnitude of Lu, are self-similar with respect to the variable zN-U, where z is the vertical coordinate. This self-similarity fully accounts for the layer characteristics observed in recent studies reporting spontaneous layering from an initially vertically uniform flow. For such a fine vertical scale, vertical gradients are large, O1-FhLh. Therefore, even if the magnitude of the vertical velocity is small and scales like FhU, the leading order governing equations of these strongly stratified flows are not two-dimensional in contradiction with a previous conjecture. The self-similarity further suggests that the vertical spectrum of horizontal kinetic energy of pancake turbulence should be of the form Ekz?N2kz-3, giving an alternative explanation for the observed vertical spectra in the atmosphere and oceans. © 2001 American Institute of Physics.

Author: Paul Billant - Jean-Marc Chomaz -



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