Wall effects on pressure fluctuations in turbulent channel flow

Abstract

The purpose of the present paper is to study the influence of wall-echo on pressure fluctuations p', and on statistical correlations containing p', viz redistribution φij, pressure diffusion dij(p), and velocity/pressure-gradient ij. We extend the usual analysis of turbulent correlations containing pressure fluctuations in wall-bounded dns computations [Kim J.: J. Fluid Mech. 205 (1989) 421--451], separating p' not only into rapid p(r)' and slow p(s)' parts [Chou P.Y.: Quart. Appl. Math. 3 (1945) 38--54], but further into volume (p'(r;V) and p'(s;V)) and surface (wall-echo; p'(r;w) and p'(s;w)) terms. An algorithm, based on a Green's function approach, is developed to compute the above splittings for various correlations containing pressure fluctuations (redistribution, pressure diffusion, velocity/pressure-gradient), in fully developed turbulent plane channel flow. This exact analysis confirms previous results based on a method-of-images approximation [Manceau R., Wang M., Laurence D.: J. Fluid Mech. 438 (2001) 307--338] showing that, at the wall, p'(V) and p'(w) are usually of the same sign and approximately equal. The above results are then used to study the contribution of each mechanism on the pressure correlations in low Reynolds-number plane channel flow, and to discuss standard second-moment-closure modelling practices.