A methodology to predict the run-out distance of submarine landslides

山崩 潜艇 地质学 海底滑坡 地震学 岩土工程 海洋学
作者
Xingsen Guo,Thorsten Stoesser,Defeng Zheng,Qianyu Luo,Xiaolei Liu,Tingkai Nian
出处
期刊:Computers and Geotechnics [Elsevier BV]
卷期号:153: 105073-105073 被引量:34
标识
DOI:10.1016/j.compgeo.2022.105073
摘要

In this paper, the method of computational fluid dynamics (CFD) is proposed to simulate a fluidized submarine landslide with shear thinning non-Newtonian fluids over a seabed under different contact conditions in the ambient water. The CFD method is first validated using data of physical channel and non-Boussinesq lock-exchange experiments with different rheological characteristics and is found to provide good accuracy. Various CFD-based experiments with different initial velocities of the submarine landslide and different seabed contact conditions are then performed systematically. During the movement of the submarine landslide in ambient water, stress state and causes of the submarine landslide mass are revealed, and the submarine landslide-seabed contact relation is clarified as a decisive influencing factor. Furthermore, based on the principle of energy conservation, a methodology to predict the run-out distance of the submarine landslide mass by using the initial geometry of the submarine landslide masses with different scales and the total initial kinetic energy (including the initial kinetic energy and the gravitational potential energy difference caused by the self-slumping) of the submarine landslide mass is presented, equations to quantify the process are established, and the proposed methodology and equations are validated by the numerical result, which provides a significant basis for the prediction of marine engineering geological and hydrodynamic hazards with special reference to submarine landslides.
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