1. Equilibrium hydrodynamics concept for developing dunes
- Author
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T. M. Clunie, T. Schlicke, Vladimir Nikora, Bruce W. Melville, Stephen E. Coleman, and S. R. McLean
- Subjects
Fluid Flow and Transfer Processes ,Physics ,Mechanical Engineering ,Computational Mechanics ,Stratified flows ,Mechanics ,Condensed Matter Physics ,Physics::Geophysics ,Condensed Matter::Soft Condensed Matter ,Flow separation ,Boundary layer ,Flow (mathematics) ,Mechanics of Materials ,Shear stress ,Mean flow ,Stratified flow ,Sediment transport - Abstract
Experiments utilizing two-dimensional fixed dune profiles and varying flow depth (dune regime flows) highlight the equilibrium (self-similar) nature of the near-bed boundary layer over developing dunes with flow separation in the dune lee. The negligible variation in roughness layer (comprising the interfacial and form-induced layers) flow structure for developing dunes was confirmed in terms of spatial fields of time-averaged velocities and stresses; and vertical distributions of: (a) double-averaged (in time and space) longitudinal velocity, (b) double-averaged normal stresses, and (c) the components of the momentum balance for the flow. The finding of an equilibrium nature for the near-bed flow over developing dunes is significant in its centrality to understanding the feedback loop between flow, bed morphology, and sediment transport that controls erodible-bed development. Further research is required into the form of the distribution of double-averaged velocity in the form-induced layer above roughne...
- Published
- 2006