Comparison between experiments and direct numerical simulations in a channel flow with roughness on one wall

Burattini, P.; Leonardi, S.; Orlandi, P.; Antonia, R. A.

Title: Comparison between experiments and direct numerical simulations in a channel flow with roughness on one wall
Creator: Burattini, P.; Leonardi, S.; Orlandi, P.; Antonia, R. A.
Relation: Journal of Fluid Mechanics Vol. 600, p. 403-426
Publisher Link: http://dx.doi.org/10.1017/S0022112008000657
Publisher: Cambridge University Press
Resource Type: journal article
Date: 2008
Description: The turbulent flow in a two-dimensional channel with roughness on one wall is investigated using experiments and direct numerical simulations (DNS). The elements have a square cross-section with height k=0.1H (H is the channel half-width) and a streamwise spacing of 4k. The Reynolds number Reτr, based on the friction velocity at the rough wall and H, is in the range 300–1100. Particular attention is given to the rough-wall side. Measured turbulence intensities, length scales, leading terms in the turbulent kinetic energy budget, and velocity spectra are compared with those obtained from the DNS. Close agreement is found, yielding support for the simplifying assumptions in the experiment (notably local isotropy and Taylor’s hypothesis) and the adequacy of the spatial resolution in the simulation. Overall, the profiles of the Reynolds normal stresses on the roughness side are almost independent of Reτr, when normalized by outer variables. Energy spectra at different locations above the rough wall collapse well at high wavenumbers, when normalized by Kolmogorov scales. In contrast to previous studies, a region of negative energy production near the location of the maximum streamwise velocity is not observed. Comparison with a smoothwall channel, at similar values of the friction-velocity Reynolds number, highlights differences only in the streamwise velocity component near the wall.
Subject: turbulent boundary layers; rod-roughened channel; heat transfer; Reynolds number; wavy boundary
Identifier: http://hdl.handle.net/1959.13/39114
Identifier: uon:4415
Identifier: ISSN:0022-1120
Language: eng
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