Observations on transition in plane bubble plumes-Reference-Cited by-同舟云学术

Observations on transition in plane bubble plumes

Published:1993-09 Issue: Volume:254 Page:363-374
ISSN:0022-1120
Container-title:Journal of Fluid Mechanics
language:en
Short-container-title:J. Fluid Mech.

Author:

Alam M.,Arakeri V. H.

Abstract

Flow visualization studies of plane laminar bubble plumes have been conducted to yield quantitative data on transition height, wavelength and wave velocity of the most unstable disturbance leading to transition. These are believed to be the first results of this kind. Most earlier studies are restricted to turbulent bubble plumes. In the present study, the bubble plumes were generated by electrolysis of water and hence very fine control over bubble size distribution and gas flow rate was possible to enable studies with laminar bubble plumes. Present observations show that (a) the dominant mode of instability in plane bubble plumes is the sinuous mode, (b) transition height and wavelength are related linearly with the proportionality constant being about 4, (c) wave velocity is about 40% of the mean plume velocity, and (d) normalized transition height data correlate very well with a source Grashof number. Some agreement and some differences in transition characteristics of bubble plumes have been observed compared to those for similar single-phase flows.

Publisher

Cambridge University Press (CUP)

Subject

Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics

Reference18 articles.

1. Gore, R. A. , Crowe, C. T. & Bejan, A. 1990 The geometric similarity of the laminar sections of boundary layer-type flows.Intl Commun. Heat Transfer 17,465–475.

2. Baines, W. D. 1961 The principles of operation of bubbling systems. Proc. Symp. Air Bubbling, Ottawa. Tech. Mem. 70, pp.12–22.National Research Council (Canada).

3. Brown, G. L. & Roshko, A. 1974 On density effects and large structure in turbulent mixing layers.J. Fluid Mech. 64,775–816.

4. Arakeri, V. H. & Nair, B. G. 1990 Sonic velocity measurements in gas–liquid mixture with low void fractions.Curr. Sci. 59,363–367.

5. Leitch, A. M. & Baines, W. D. 1989 Liquid volume flux in a weak bubble plume.J. Fluid Mech. 205,77–98.

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