Asymptotic scaling in turbulent pipe flow

Author:

McKeon B.J1,Morrison J.F2

Affiliation:

1. Graduate Aeronautical Laboratories, California Institute of TechnologyPasadena, CA 91125, USA

2. Department of Aeronautics, Imperial College LondonLondon SW7 2AZ, UK

Abstract

The streamwise velocity component in turbulent pipe flow is assessed to determine whether it exhibits asymptotic behaviour that is indicative of high Reynolds numbers. The asymptotic behaviour of both the mean velocity (in the form of the log law) and that of the second moment of the streamwise component of velocity in the outer and overlap regions is consistent with the development of spectral regions which indicate inertial scaling. It is shown that an ‘inertial sublayer’ in physical space may be considered as a spatial analogue of the inertial subrange in the velocity spectrum and such behaviour only appears for Reynolds numbers R + >5×10 3 , approximately, much higher than was generally thought.

Publisher

The Royal Society

Subject

General Physics and Astronomy,General Engineering,General Mathematics

Reference36 articles.

1. Conditions for the existence of an inertial subrange in turbulent flow;Bradshaw P;Natl Phys. Lab. Aero. Rep. No,1967

2. The turbulent boundary layer in a compressible fluid. Appendix A: a manual of experimental boundary-layer practice for low-speed flow;Coles D.E;Rand. Corp. Rep,1962

3. Reynolds number effects in a turbulent pipe flow for low to moderate Re

4. The mixing transition in turbulent flows

5. Local Anisotropy in Strained Turbulence at High Reynolds Numbers

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