Routing Debris Flows with Particle Segregation
Publication: Journal of Hydraulic Engineering
Volume 118, Issue 11
Abstract
A computer simulation method is developed to predict the temporal variations of debris‐flow discharge, solids concentration, and vertical mean particle‐size distribution. A single finite step in the simulation is divided into two stages: In the first stage, a sediment bed composed of a well‐graded mixture is eroded by surface water introduced at the head of a channel, thereby generating a debris flow. In the second stage, larger particles in the debris flow move upward because of dispersive force and are then transported forward faster than smaller particles, which remain in the lower part of the flow because the velocity is slower in the lower layer. Another numerical simulation method is also developed to predict simultaneously the shape of the debris‐deposit area, the distribution of the deposit thicknesses within the area, and the three‐dimensional distribution of the mean diameters of the deposited particles. Both simulation methods are verified using laboratory experiments.
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Published In
Journal of Hydraulic Engineering
Volume 118 • Issue 11 • November 1992
Pages: 1490 - 1507
Copyright
Copyright © 1992 ASCE.
History
Published online: Nov 1, 1992
Published in print: Nov 1992
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