Numerical Investigation of Surge Waves Generated by Submarine Debris Flows

Abstract: Submarine debris flows and their generated waves are common disasters in Nature that may destroy offshore infrastructure and cause fatalities. As the propagation of submarine debris flows is complex, involving granular material sliding and wave generation, it is difficult to simulate the process using conventional numerical models. In this study, a numerical model based on the smoothed particle hydrodynamics (SPH) algorithm is proposed to simulate the propagation of submarine debris flow and predict its genera… Show more

“…The Bingham fluid model is a commonly used non-Newtonian model to simulate the rheological behavior of landslides [47][48][49]. In the presented SPH model, the submarine sediment is assumed as a Bingham viscous fluid, which begins to flow as a viscous fluid when the yield stress limit τ y is reached.…”

Three-Dimensional Modeling of Tsunami Waves Triggered by Submarine Landslides Based on the Smoothed Particle Hydrodynamics Method

“…The Bingham fluid model is a commonly used non-Newtonian model to simulate the rheological behavior of landslides [47][48][49]. In the presented SPH model, the submarine sediment is assumed as a Bingham viscous fluid, which begins to flow as a viscous fluid when the yield stress limit τ y is reached.…”

Three-Dimensional Modeling of Tsunami Waves Triggered by Submarine Landslides Based on the Smoothed Particle Hydrodynamics Method

A review of approaches for submarine landslide-tsunami hazard identification and assessment

Dimensional effect of CFD analysis for submarine landslides interactions with infinite suspension pipelines