Journal article
Mean force structure and its scaling in rough-wall turbulent boundary layers
F Mehdi, JC Klewicki, CM White
Journal of Fluid Mechanics | Published : 2013
DOI: 10.1017/jfm.2013.385
Abstract
The combined roughness/Reynolds number problem is explored. Existing and newly acquired data from zero pressure gradient rough-wall turbulent boundary layers are used to clarify the leading order balances of terms in the mean dynamical equation. For the variety of roughnesses examined, it is revealed that the mean viscous force retains dominant order above (and often well above) the roughness crests. Mean force balance data are shown to be usefully organized relative to the characteristic length scale, which is equal or proportional to the width of the region from the wall to where the leading order mean dynamics become described by a balance between the mean and turbulent inertia. This is e..
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Funding Acknowledgements
This work was supported by the US Office of Naval Research (grant monitor R. Joslin). J.C.K. is grateful to N. Hutchins, I. Marusic and M. Chong for a number of clarifying discussions. The authors thank those researchers who made their data sets in table 2 and figure 16 available.