A two-species model of aeolian sand transport

BRUNO ANDREOTTI

doi:10.1017/S0022112004009073

Abstract

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The transport of sand by wind results from the equilibrium between the erosion of grains dragged by the flow and the resulting slow down of the wind velocity. The dynamical mechanisms governing the saturation of the sand flux are investigated theoretically. We first demonstrate that previous models, based on the assumption that all the grains have the same trajectory, are either not self-consistent or lead to unstable solutions. A model based on a discrete number of states is derived, which solves these problems. Two well-defined species of grain appear, which correspond to saltons (high-energy grains) and reptons (grains ejected from the sand bed by the impact of saltons). They play specific roles: the negative feedback of the transport on the wind is limited to the reptation layer while most of the transport is due to saltation. The model is further simplified, benefiting from the existence of these two species and the dependencies of the threshold velocity, the saturated flux, the aerodynamic roughness and the saturation length are derived and compared to experimental measurements.

Crossref Citations

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Elbelrhiti, Hicham Claudin, Philippe and Andreotti, Bruno 2005. Field evidence for surface-wave-induced instability of sand dunes. Nature, Vol. 437, Issue. 7059, p. 720.

Dong, Zhibao Huang, Ning and Liu, Xiaoping 2005. Simulation of the probability of midair interparticle collisions in an aeolian saltating cloud. Journal of Geophysical Research: Atmospheres, Vol. 110, Issue. D24,

Kouakou, K. K.J. and Lagrée, P.-Y. 2005. Stability of an erodible bed in various shear flows. The European Physical Journal B, Vol. 47, Issue. 1, p. 115.

Durán, O and Herrmann, H 2006. Modelling of saturated sand flux. Journal of Statistical Mechanics: Theory and Experiment, Vol. 2006, Issue. 07, p. P07011.

Herrmann, Hans J. Andrade, José S. Araújo, Ascânio D. and Almeida, Murilo P. 2006. Transport of particles in fluids. Physica A: Statistical Mechanics and its Applications, Vol. 372, Issue. 2, p. 374.

Schatz, Volker Tsoar, Haim Edgett, Kenneth S. Parteli, Eric J. R. and Herrmann, Hans J. 2006. Evidence for indurated sand dunes in the Martian north polar region. Journal of Geophysical Research: Planets, Vol. 111, Issue. E4,

Andreotti, Bruno Claudin, Philippe and Pouliquen, Olivier 2006. Aeolian Sand Ripples: Experimental Study of Fully Developed States. Physical Review Letters, Vol. 96, Issue. 2,

Claudin, Philippe and Andreotti, Bruno 2006. A scaling law for aeolian dunes on Mars, Venus, Earth, and for subaqueous ripples. Earth and Planetary Science Letters, Vol. 252, Issue. 1-2, p. 30.

Almeida, Murilo P. Andrade, José S. and Herrmann, Hans J. 2006. Aeolian Transport Layer. Physical Review Letters, Vol. 96, Issue. 1,

Parteli, E. J. R. Durán, O. and Herrmann, H. J. 2007. Minimal size of a barchan dune. Physical Review E, Vol. 75, Issue. 1,

Parteli, Eric J. R. and Herrmann, Hans J. 2007. Dune formation on the present Mars. Physical Review E, Vol. 76, Issue. 4,

Andreotti, B. and Claudin, P. 2007. Comment on “Minimal size of a barchan dune”. Physical Review E, Vol. 76, Issue. 6,

Almeida, M. P. Andrade, J. S. and Herrmann, H. J. 2007. Aeolian transport of sand. The European Physical Journal E, Vol. 22, Issue. 3,

Parteli, Eric J. R. and Herrmann, Hans J. 2007. Saltation Transport on Mars. Physical Review Letters, Vol. 98, Issue. 19,

Herrmann, H. J. Andrade, J. S. Araújo, A. D. and Almeida, M. P. 2007. Particles in fluids. The European Physical Journal Special Topics, Vol. 143, Issue. 1, p. 181.

Sherman, Douglas J. and Farrell, Eugene J. 2008. Aerodynamic roughness lengths over movable beds: Comparison of wind tunnel and field data. Journal of Geophysical Research: Earth Surface, Vol. 113, Issue. F2,

Osanloo, F. Kolahchi, M. R. McNamara, S. and Herrmann, H. J. 2008. Sediment transport in the saltation regime. Physical Review E, Vol. 78, Issue. 1,

Andreotti, Bruno 2008. Contradictory saltation height measurements and unphysical assumptions. Proceedings of the National Academy of Sciences, Vol. 105, Issue. 39,

Elbelrhiti, H. Andreotti, B. and Claudin, P. 2008. Barchan dune corridors: Field characterization and investigation of control parameters. Journal of Geophysical Research: Earth Surface, Vol. 113, Issue. F2,

Herrmann, Hans J. 2008. Particles in fluids. European Journal of Environmental and Civil Engineering, Vol. 12, Issue. 7-8, p. 901.

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A two-species model of aeolian sand transport

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