Journal article
Generalized logarithmic law for high-order moments in turbulent boundary layers
C Meneveau, I Marusic
Journal of Fluid Mechanics | Published : 2013
DOI: 10.1017/jfm.2013.61
Abstract
High-Reynolds-number data in turbulent boundary layers are analysed to examine statistical moments of streamwise velocity fluctuations u′. Prior work has shown that the variance of u′ exhibits logarithmic behaviour with distance to the surface, within an inertial sublayer. Here we extend these observations to even-order moments. We show that the 2p-order moments, raised to the power 1/p, also follow logarithmic behaviour according to 〈(u′+)2p〉1/p = Bp - Ap ln(z/δ), where u′+ is the velocity fluctuation normalized by the friction velocity, δ is an outer length scale and Bp are non-universal constants. The slopes Ap in the logarithmic region appear quite insensitive to Reynolds number, consist..
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Funding Acknowledgements
The authors wish to thank Professors K. R. Sreenivasan, D. I. Pullin and J. Klewicki for fruitful discussions, and the Australian Research Council for the financial support of this work. C. M.'s visit to the University of Melbourne is supported by an Australian-American Fulbright Commission Senior Scholar Fellowship and a University of Melbourne Tewksbury Fellowship.