Litcius/Paper detail

MPMICE: A hybrid MPM‐CFD model for simulating coupled problems in porous media. Application to earthquake‐induced submarine landslides

Quoc Anh Tran, Gustav Grimstad, Seyed Ali Ghoreishian Amiri

2023International Journal for Numerical Methods in Engineering30 citationsDOIOpen Access PDF

Abstract

Summary In this paper, we describe a soil‐fluid‐structure interaction model that combines soil mechanics (saturated sediments), fluid mechanics (seawater or air), and solid mechanics (structures). The formulation combines the Material Point Method, which models large deformation of the porous media and the structure, with the Implicit Continuous‐fluid Eulerian, which models complex fluid flows. We validate the model and simulate the whole process of earthquake‐induced submarine landslides. We show that this model captures complex interactions between saturated sediment, seawater, and structure, so we can use the model to estimate the impact of potential submarine landslides on offshore structures.

Topics & Concepts

Material point methodSubmarine landslideSubmarineGeologyLandslideGeotechnical engineeringSubmarine pipelinePoromechanicsPorous mediumMechanicsEulerian pathFluid mechanicsFluid dynamicsPorosityEngineeringFinite element methodStructural engineeringPhysicsLagrangianOceanographyMathematical physicsFluid Dynamics Simulations and InteractionsGranular flow and fluidized bedsLandslides and related hazards
MPMICE: A hybrid MPM‐CFD model for simulating coupled problems in porous media. Application to earthquake‐induced submarine landslides | Litcius