Computer Modeling of Large Rock Slides

Abstract

A computer‐based analysis of the runout dynamics of the Madison Canyon rockslide of August 17, 1959, is reported. Three levels of computer representation of the flow are considered. First is a representation of the actual canyon profile, where the model assumes incompressible linear viscous flow. Second is a horizontal profile in which gravitational forces are input by components, and again the flow is approximated by a single viscosity model. Third is a horizontal profile, for which a two viscosity model approaching a Bingham material representation is used. Results of each model are compared to actual slide runout, debris distribution, and maximum speed of the flow. The biviscous model, which depicts an active basal flow layer, also has physical characteristics consistent with measurements made of the Madison Canyon slide following the event.

Keywords

This publication has 16 references indexed in Scilit:

Experiments on mechanics of flowing snow
Cold Regions Science and Technology, 1982
A Two–Parameter Model of Snow–Avalanche Motion
Journal of Glaciology, 1980
Sherman Glacier Rock Avalanche, Alaska, U.S.A.
Published by Elsevier ,1978
Measurement of Flow Properties of Powders along an Inclined Plane
Industrial & Engineering Chemistry Fundamentals, 1971
A simplified MAC technique for incompressible fluid flow calculations
Journal of Computational Physics, 1970
The Saidmarreh Landslide, Iran
Published by Geological Society of America ,1969
The Blackhawk Landslide
Published by Geological Society of America ,1968
Sherman Landslide, Alaska
Science, 1966
The Transport Mechanism in Catastrophic Rock Falls
The Journal of Geology, 1966
Numerical Calculation of Time-Dependent Viscous Incompressible Flow of Fluid with Free Surface
Physics of Fluids, 1965