Fully developed periodic turbulent pipe flow. Part 2. The detailed structure of the flow-Reference-Cited by-同舟云学术

Fully developed periodic turbulent pipe flow. Part 2. The detailed structure of the flow

Published:1983-12 Issue: Volume:137 Page:59-81
ISSN:0022-1120
Container-title:Journal of Fluid Mechanics
language:en
Short-container-title:J. Fluid Mech.

Author:

Ramaprian B. R.,Tu S. W.

Abstract

The main experimental results of the study of periodic turbulent pipe flow have been described in Part 1 of this report. In this second part, these experimental data are examined in greater detail to understand the effect of imposed oscillation on the flow structure, at moderate to large oscillation frequencies. Data on phase and amplitude and energy spectrum are used to study the effect of the imposed oscillation on the turbulence structure at these interactive frequencies of oscillation. Additional experiments which were performed to study the effect of oscillation frequency on the flow structure are also reported. Based on the present observations as well as on the data from other sources, it is inferred that turbulent shear flows respond very differently from laminar shear flows to imposed unsteadiness. A turbulent Stokes number relevant for characterizing the unsteady turbulent shear flows is identified and used to classify such flows.

Publisher

Cambridge University Press (CUP)

Subject

Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics

Reference19 articles.

1. Ramaprian, B. R. & Tu, S. W. 1980 An experimental study of oscillatory pipe flow at transitional Reynolds numbers J. Fluid Mech. 100,513–544.

2. Tu, S. W. & Ramaprian, B. R. 1983 Fully developed periodic turbulent pipe flow. Part 1. Main experimental results and comparison with predictions J. Fluid Mech. 137,31–58.

3. Mizushina, T. , Maruyama, T. & Hirasawa, H. 1975 Structure of the turbulence in pulsating pipe flows J. Chem. Engng Japan 8,210–216.

4. Kirmse, R. E. 1979 Investigations of pulsating turbulent pipe flow.Trans. ASME, 79-WA/FE-1.

5. Kobashi, Y. & Hayakawa, M. 1981 Structure of turbulent boundary layer on an oscillating flat plate. In Unsteady Turbulent Shear Flows (ed. R. Michel , J. Cousteix and R. Houdeville ),pp.67–76.Springer.

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