DOI:10.3390/e20020109
eng
Egolf, Peter William
Hutter, Kolumban
Tsallis extended thermodynamics applied to 2-d turbulence ::Lévy statistics and q-fractional generalized kraichnanian energy and enstrophy spectra
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Ingénierie
http://hesso.tind.io/record/2379/files/Egolf_2018_Tsallis.pdf
http://hesso.tind.io/record/2379/files/Egolf_2018_Tsallis.pdf?subformat=pdfa
The extended thermodynamics of Tsallis is reviewed in detail and applied to turbulence. It is based on a generalization of the exponential and logarithmic functions with a parameter q. By applying this nonequilibrium thermodynamics, the Boltzmann-Gibbs thermodynamic approach of Kraichnan to 2-d turbulence is generalized. This physical modeling implies fractional calculus methods, obeying anomalous diffusion, described by Lévy statistics with q < 5/3 (sub diffusion), q = 5/3 (normal or Brownian diffusion) and q > 5/3 (super diffusion). The generalized energy spectrum of Kraichnan, occurring at small wave numbers k, now reveals the more general and precise result k−q. This corresponds well for q = 5/3 with the Kolmogorov-Oboukov energy spectrum and for q > 5/3 to turbulence with intermittency. The enstrophy spectrum, occurring at large wave numbers k, leads to a k−3q power law, suggesting that large wave-number eddies are in thermodynamic equilibrium, which is characterized by q = 1, finally resulting in Kraichnan’s correct k −3 enstrophy spectrum. The theory reveals in a natural manner a generalized temperature of turbulence, which in the non-equilibrium energy transfer domain decreases with wave number and shows an energy equipartition law with a constant generalized temperature in the equilibrium enstrophy transfer domain. The article contains numerous new results; some are stated in form of eight new (proven) propositions.
2018-04-24T08:24:42Z
http://hesso.tind.io/record/2379
http://hesso.tind.io/record/2379
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