On the formation of ripples on an erodible bed-Reference-Cited by-同舟云学术

On the formation of ripples on an erodible bed

Published:1984-07 Issue: Volume:144 Page:177-190
ISSN:0022-1120
Container-title:Journal of Fluid Mechanics
language:en
Short-container-title:J. Fluid Mech.

Author:

Sumer B. Mutlu,Bakioglu Mehmet

Abstract

A linear stability analysis is presented of both hydraulically smooth and transitional flows over an erodible bed. The present theory is developed to account for the formation of ripples. It is essentially an extension of the theory of Richards (1980) to include the effect of viscosity upon the bed wave stability. The theory takes into consideration that the formation of ripples does not depend on flow depths, and that only the bed-load transport is involved in the formation of ripples. The effect of gravity is included in the analysis through the local inclination of the wavy bed surface. The results show that the bed is unstable (i.e. ripples exist) when the grain Reynolds number is less than a certain value. The limiting values of the grain Reynolds number for ripple existence obtained through present analysis are found to be in good agreement with observations.

Publisher

Cambridge University Press (CUP)

Subject

Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics

Reference23 articles.

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2. Kennedy, J. F. 1980 Bed forms in alluvial streams: some views on current understanding and identification of unresolved problems. In Application of Stochastic Processes in Sediment Transport (ed. H. W. Shen & H. Kikkawa ).Water Resources Publications,Colorado.

3. Bagnold, R. A. 1973 The nature of saltation and of ‘bed-load’ transport in water.Proc. R. Soc. Lond. A 332,437.

4. Fredsøe, J. 1982 Shape and dimensions of ripples and dunes. In Euromech 156: The Mechanics of Sediment Transport (ed. B. M. Sumer & A. Muller ).Balkema,Rotterdam.

5. Sumer, B. M. & Bakioglu, M. 1983 Instability of erodible bed: ripple formation. In Proc. 2nd Intl Symp. on River Sedimentation, 11–16 Oct. 1983, Nanjing, China .Water Resources and Electric Power Press.

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