

	Mekanik In English

Artikel

A note of Kolmogorov´s third order structure function law, the local isotropy hypothesis and the pressure-velocity correlation.

Författare:	Lindborg, E.
Dokumenttyp:	Artikel
Tillstånd:	Publicerad
Tidskrift:	J. Fluid Mech.
Volym:	326 343-356
År:	1996

Abstract

We show that Kolmogorov's (1941) inertial-range law for the third-order structure function can be derived from a dynamical equation including pressure terms and mean flow gradient terms. A new inertial-range law, relating the two-point pressure-velocity correlation to the single-point pressure-strain tensor, is also derived. This law shows that the two-point pressure-velocity correlation, just like the third-order structure function, grows linearly with the separation distance in the inertial range. The physical meaning of both this law and Kolmogorov's law is illustrated by a Fourier analysis. An inertial-range law is also derived for the third-order velocity-enstrophy structure function of two-dimensional turbulence. It is suggested that the second-order vorticity structure function of two-dimensional turbulence is constant and scales with epsilon /sub omega //sup 2/3/ in the enstrophy inertial range, epsilon /sub omega / being the enstrophy dissipation. Owing to the constancy of this law, it does not imply a Fourier-space inertial-range law, and therefore it is not equivalent to the k/sup -1/ law for the enstrophy spectrum, suggested by Kraichnan (1967) and Batchelor (1969).