Wave formation on a shallow layer of flowing grains

SHYAM N. PRASAD; DIPANKAR PAL; MATHIAS J. M. RÖMKENS

doi:10.1017/S0022112000008296

Abstract

The phenomenon of longitudinal waves in shallow grain flows has been studied through laboratory experiments. The transport process of spherical particles on a metallic chute has been characterized for this purpose. The wave mode of material transport could be measured within selected combinations of flow parameters such as the angular inclination of the chute, the mean size of the grains and the mass flow rate. It has been observed that the moving particles tend to redistribute systematically in the direction of mean flow. As a result, nonlinear longitudinal waves evolve on the surface of the chute. Observations of the predominantly rolling mode of particle motion revealed significant particle dispersion away from the wavefronts. The frequency of inter-particle collisions was low in the dispersed flow regions but increased rapidly near the wavefronts to dissipate the excess kinetic energy, thus resulting in a large increase in the average volumetric solid fraction. In order to explain the appearance of discontinuities in the volumetric solid fraction, a theoretical model that preserves the overall balance of energy and allows a discontinuous periodic solution is examined here. The depth-averaged dispersed flow of the grains has been approximated by equations of motion similar to those of shallow fluid flow. The resistance to the rolling motion of the particles is expressed in terms of the hydrodynamic drag force. The theoretical model predicts the flow criterion for which the longitudinal waves would be self-sustaining.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Fer, Ilker Lemmin, Ulrich and Thorpe, S. A. 2001. Cascading of water down the sloping sides of a deep lake in winter. Geophysical Research Letters, Vol. 28, Issue. 10, p. 2093.

Ancey, Christophe 2001. Dry granular flows down an inclined channel: Experimental investigations on the frictional-collisional regime. Physical Review E, Vol. 65, Issue. 1,

Fer, Ilker Lemmin, Ulrich and Thorpe, S. A. 2002. Winter cascading of cold water in Lake Geneva. Journal of Geophysical Research: Oceans, Vol. 107, Issue. C6,

Conway, Stephen L. Goldfarb, David J. Shinbrot, Troy and Glasser, Benjamin J. 2003. Free Surface Waves in Wall-Bounded Granular Flows. Physical Review Letters, Vol. 90, Issue. 7,

Börzsönyi, Tamás Halsey, Thomas C. and Ecke, Robert E. 2005. Two Scenarios for Avalanche Dynamics in Inclined Granular Layers. Physical Review Letters, Vol. 94, Issue. 20,

Carling, P. A. Richardson, K. and Ikeda, H. 2005. A flume experiment on the development of subaqueous fine‐gravel dunes from a lower‐stage plane bed. Journal of Geophysical Research: Earth Surface, Vol. 110, Issue. F4,

Venditti, Jeremy G. Church, Michael and Bennett, Sean J. 2006. On interfacial instability as a cause of transverse subcritical bed forms. Water Resources Research, Vol. 42, Issue. 7,

Wilson, G. V. Periketi, R. K. Fox, G. A. Dabney, S. M. Shields, F. D. and Cullum, R. F. 2007. Soil properties controlling seepage erosion contributions to streambank failure. Earth Surface Processes and Landforms, Vol. 32, Issue. 3, p. 447.

Prasad, S.N. Suryadevara, Madhu R. and Römkens, M.J.M. 2009. Grain transport mechanics in shallow overland flow. Ecohydrology, Vol. 2, Issue. 3, p. 248.

Börzsönyi, Tamás Ecke, Robert E. and McElwaine, Jim N. 2009. Patterns in Flowing Sand: Understanding the Physics of Granular Flow. Physical Review Letters, Vol. 103, Issue. 17,

Takagi, Daisuke McElwaine, Jim N. and Huppert, Herbert E. 2011. Shallow granular flows. Physical Review E, Vol. 83, Issue. 3,

Longo, Sandro 2011. Roll waves on a shallow layer of a dilatant fluid. European Journal of Mechanics - B/Fluids, Vol. 30, Issue. 1, p. 57.

Mouginis-Mark, Peter J. and Boyce, Joseph M. 2012. Tooting crater: Geology and geomorphology of the archetype large, fresh, impact crater on Mars. Geochemistry, Vol. 72, Issue. 1, p. 1.

Arai, M. Huebl, J. and Kaitna, R. 2013. Occurrence conditions of roll waves for three grain–fluid models and comparison with results from experiments and field observation. Geophysical Journal International, Vol. 195, Issue. 3, p. 1464.

Kotta, Jonne Kutser, Tiit Teeveer, Karolin Vahtmäe, Ele Pärnoja, Merli and Fulton, Christopher 2013. Predicting Species Cover of Marine Macrophyte and Invertebrate Species Combining Hyperspectral Remote Sensing, Machine Learning and Regression Techniques. PLoS ONE, Vol. 8, Issue. 6, p. e63946.

Kotta, Jonne Möller, Tiia Orav-Kotta, Helen and Pärnoja, Merli 2014. Realized niche width of a brackish water submerged aquatic vegetation under current environmental conditions and projected influences of climate change. Marine Environmental Research, Vol. 102, Issue. , p. 88.

2015. Unified Non-Local Theory of Transport Processes. p. 601.

Varsakelis, C. and Papalexandris, M. V. 2015. Numerical simulation of subaqueous chute flows of granular materials. The European Physical Journal E, Vol. 38, Issue. 5,

Alexeev, B.V. 2015. Unified Non-Local Theory of Transport Processes. p. 413.

Wells, Robert R. Bennett, Sean J. Bingner, Ronald L. Dabney, Seth M. Langendoen, Eddy J. Momm, Henrigue G. Römkens, Mathias J. M. and Wilson, Glenn V. 2015. USDA-ARS National Sedimentation Laboratory: A Historic Perspective. Journal of Water Resource and Protection, Vol. 07, Issue. 03, p. 228.

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Wave formation on a shallow layer of flowing grains

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