Thin shear layers in high Reynolds number turbulence - DNS results

T. Ishihara, J. C.R. Hunt, Y. Kaneda

Research output: Contribution to conferencePaper

Abstract

Data analysis of high resolution DNS of isotropic turbulence with the Taylor micro-scale Reynolds number Rλ = 1131 on 40963 grid points shows that there are significant thin shear layers of thickness of the order of Taylor micro-scale, consisting of a cluster of strong vortex tubes with typical diameter of order 10η (η is the Kolmogorov length scale). There are big velocity jumps of the order of the rms of the fluctuation velocity across the layers. The locally averaged energy dissipation rate in the layers is much greater than the mean energy dissipation rate, and contributes disproportionately to the overall mean dissipation rate. Up scale and down scale energy transfer to small eddies is largest within and just outside these layers (where the most intense vortices and dissipation occur). The statistics (based on a systematic study) of the layers will be presented and their Reynolds number dependence will be discussed.

Original languageEnglish
Publication statusPublished - Jan 1 2020
Event14th European Turbulence Conference, ETC 2013 - Lyon, France
Duration: Sep 1 2013Sep 4 2013

Conference

Conference14th European Turbulence Conference, ETC 2013
CountryFrance
CityLyon
Period9/1/139/4/13

ASJC Scopus subject areas

  • Acoustics and Ultrasonics
  • Astronomy and Astrophysics
  • Atmospheric Science
  • Geophysics

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    Ishihara, T., Hunt, J. C. R., & Kaneda, Y. (2020). Thin shear layers in high Reynolds number turbulence - DNS results. Paper presented at 14th European Turbulence Conference, ETC 2013, Lyon, France.