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Finite difference lattice Boltzmann method for modeling dam break debris flows

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journal contribution
posted on 2023-05-21, 15:46 authored by Gholamreza KefayatiGholamreza Kefayati, Ali TolooiyanAli Tolooiyan, Ashley DysonAshley Dyson

A finite difference lattice Boltzmann method (FDLBM) for the simulation of mud and debris flows for one-dimensional cases has been introduced. The proposed FDLBM recovers the generalized equations of mud and debris flows, that is, an unsteady one-dimensional Saint-Venant equation, including the effects of the non-Newtonian behavior of the mixture of water and soil, contraction–expansion losses (or large eddy loss), wind force, various geometries, and lateral inflow or outflow. The proposed FDLBM can be implemented for various non-Newtonian viscoplastic constitutive models of the studied mud and debris flows. The method is validated against previous studies for several benchmark cases, including steady-state problems, hydraulic jump tests, dam breaks with dry and wet beds, and slope dam break floods. Finally, the Anhui debris dam failure flood was investigated by this approach, and the results demonstrated a good agreement with the observed computational and field tests.

History

Publication title

Physics of Fluids

Volume

35

Issue

1

Article number

013102

Number

013102

Pagination

1-17

ISSN

1089-7666

Department/School

Engineering

Publisher

AIP Publishing LLC

Publication status

  • Published

Place of publication

United States

Rights statement

© 2023 Author(s). Published under an exclusive license by AIP Publishing

Socio-economic Objectives

190403 Geological hazards (e.g. earthquakes, landslides and volcanic activity), 190404 Hydrological hazards (e.g. avalanches and floods)

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