Renormalization of shell model of turbulence
Abstract
Renormalization enables a systematic scale-by-scale analysis of multiscale systems. In this paper, we employ renormalization group (RG) to the shell model of turbulence and show that the RG equation is satisfied by |un|2 =KKo ε2/3 kn-2/3 and n = * KKo ε1/3 kn-4/3, where kn, un are the wavenumber and velocity of shell n ; *, KKo are RG and Kolmogorov's constants; and ε is the energy dissipation rate. We find that * ≈ 0.5 and KKo ≈ 1.7, consistent with earlier RG works on Navier-Stokes equation. We verify the theoretical predictions using numerical simulations.
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