Spectrum of Reynolds stress for anisotropic turbulence and Taylor expansion of small-scale velocity

Alexander Balonishnikov

doi:10.1051/epjconf/202531804002

All issues

Volume 318 (2025)

EPJ Web Conf., 318 (2025) 04002

Abstract

Open Access

Issue		EPJ Web Conf. Volume 318, 2025 III International Conference on Advances in Applied Physics and Mathematics for Energy, Environment and Earth Science (AAPM-III 2025)


Article Number		04002
Number of page(s)		5
Section		Computational Physics and Mathematical Methods
DOI		https://doi.org/10.1051/epjconf/202531804002
Published online		17 February 2025

EPJ Web of Conferences 318, 04002 (2025)
https://doi.org/10.1051/epjconf/202531804002

Spectrum of Reynolds stress for anisotropic turbulence and Taylor expansion of small-scale velocity

Alexander Balonishnikov^*

Department of Mathematics and Mechanics, Department of Physics, Saint-Petersburg State, University of Aerospace Instrumentation (SUAI), 67, Bolshaya Morskaia str., SPb, 190000, Russia

^* Corresponding author: balonishnikov@guap.ru

Published online: 17 February 2025

Abstract

Solution of the small-scale velocity transport equation for incompressible fluid in anisotropic turbulence as Taylor series in time is used for obtaining of explicit expression for the Reynolds Stress spectra. The initial condition is isotropic with a given turbulent energy spectrum. It is assumed that low-order terms are sufficient for correct description for the period about the time turnover of large-scale eddies. The averaging is taken over this period, the integral scale of turbulence and three uniformly distributed random phases of initial isotropic velocity. It is assumed that isotropic energy spectrum is given. The Craya-Herring components of small-scale velocity (polarization Fourier components) are used. Obtained Reynolds stress contain the mean dissipation rate of kinetic energy.

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