Tests and numerical one-dimensional modelling of a high-viscosity fluid dam-break wave
- 13 January 1995
- journal article
- research article
- Published by Taylor & Francis in Journal of Hydraulic Research
- Vol. 33 (1) , 17-26
- https://doi.org/10.1080/00221689509498681
Abstract
Following suggestions from the literature that, in some cases, mud flow and debris flow may be treated in computations as viscous laminar flow, this paper contains test results compared with results obtained with a one-dimensional numerical model of a high-viscosity fluid wave on an inclined bottom. A gate that initially retained the fluid at the upstream end of a channel was quickly removed. The set up of the numerical model is discussed in detail. A finite difference scheme is applied. Viscous bottom friction is counted for. To overcome the discontinuity at the start of the break, the classical analytical solution of the zero-viscosity dam break wave on a horizontal bottom is introduced.Keywords
This publication has 10 references indexed in Scilit:
- Continuum simulation of flow failuresGéotechnique, 1991
- Numerical simulation of unsteady viscous free surface flowJournal of Computational Physics, 1990
- The motion of a finite mass of granular material down a rough inclineJournal of Fluid Mechanics, 1989
- 1‐D Dam‐Break Flood‐Wave Propagation on Dry BedJournal of Hydraulic Engineering, 1987
- Kinematic Properties of Mudflows on Mt. St. HelensJournal of Hydraulic Engineering, 1987
- Computer Modeling of Large Rock SlidesJournal of Geotechnical Engineering, 1986
- A Biviscous Modified Bingham Model of Snow Avalanche MotionAnnals of Glaciology, 1983
- Volume of fluid (VOF) method for the dynamics of free boundariesJournal of Computational Physics, 1981
- The effect of viscosity in hypervelocity impact crateringPublished by American Institute of Aeronautics and Astronautics (AIAA) ,1969
- Systems of conservation lawsCommunications on Pure and Applied Mathematics, 1960