Approach to the 4/3 law for turbulent pipe and channel flows examined through a reformulated scale-by-scale energy budget

Zimmerman, Spencer J.; Antonia, R. A.; Djenidi, L.; Philip, J.; Klewicki, J. C.

Title: Approach to the 4/3 law for turbulent pipe and channel flows examined through a reformulated scale-by-scale energy budget
Creator: Zimmerman, Spencer J.; Antonia, R. A.; Djenidi, L.; Philip, J.; Klewicki, J. C.
Relation: Journal of Fluid Mechanics Vol. 931, no. A28
Publisher Link: http://dx.doi.org/10.1017/jfm.2021.986
Publisher: Cambridge University Press
Resource Type: journal article
Date: 2021
Description: In this study, we propose a scale-by-scale (SBS) energy budget equation for flows with homogeneity in at least one direction. This SBS budget represents a modified form of the equation first proposed by Danaila et al. (J. Fluid Mech., vol. 430, 2001, pp. 87–109) for the channel centreline – the primary difference is that, here, we consider the role of pressure along with the errors associated with the isotropic approximations of the interscale divergence and Laplacian of the squared velocity increment. The term encompassing the effects of mean shear is also characterised such that the present analysis can be extended straightforwardly to locations away from the centreline. We show, based on a detailed analysis of previously published channel flow direct numerical simulations and pipe flow experiments near the centreline, how several terms in the present SBS budget equation (including the third-order velocity structure function) behave with increasing Reynolds number. The behaviour of these terms is shown to imply a rate of emergence and subsequent growth of the 4/3 law scale subrange at the channel centreline and pipe axis. The analysis also suggests that the peak magnitude of the third-order velocity structure function occurs at a scale that is fixed in proportion to the Taylor microscale at sufficiently high Reynolds number.
Subject: pipe flow; isotropic turbulence; homogenous turbulence; channel flow
Identifier: http://hdl.handle.net/1959.13/1459670
Identifier: uon:45738
Identifier: ISSN:0022-1120
Language: eng
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