<![CDATA[Colloquiam: Presentations and videos to VII edition of the International Conference on Particle-based Methods (Particles 2021)]]> https://colloquiam.com/sj/particles2021

CT02 - Material Point Method (MPM)

http://www.colloquiam.com/public/Tran_et_al_2022a Tue, 15 Feb 2022 12:21:47 +0100 http://www.colloquiam.com/public/Tran_et_al_2022a <![CDATA[Coupled CFD-MPM simulation of soil-fluid interaction in geotechnics]]> Material Point Method (MPM) can be used to simulate large deformations in geotechnics such as debris flows or landslides [1]. However, simulating the submarine debris flows using MPM is quite challenging as it involves complex interactions between debris flow (soil) and seawater (fluid) such as turbulence or hydroplaning mechanisms. This paper presents a coupled Computational Fluid Dynamics and MPM (CFD-MPM) approach [2] to simulate the behavior of soil-fluid interaction for applications in geotechnical engineering. MPM is employed to model the porous media system, while the CFD is used to simulate the fluid flow by solving the Navier–Stokes equations. The soil-fluid interaction is considered by drag forces and buoyancy forces in the multi-phase governing equations. We implemented the formulations in the Uintah computational framework. Numerical simulations are performed and compared with the experiment to highlight the capability of the coupled CFD-MPM model. REFERENCES [1] Q. A. Tran and W. Sołowski, “Generalized Interpolation Material Point Method modelling of large deformation problems including strain-rate effects – Application to penetration and progressive failure problems,” Computers and Geotechnics, vol. 106, pp. 249-265, 2019. [2] J. E. Guilkey, T. Harman and B. Banerjee, “An Eulerian-Lagrangian approach for simulating explosions of energetic devices,” Computers & Structures, vol. 85, no. 11-14, pp. 660-674, 2007.

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CT04 - Moving Particle Simulation (MPS) methods

CT06 - Smoothed Particles Hydrodynamics (SPH)

CT07 - Discrete (Distinct) Element Method (DEM)

CT10 - Chemical Engineering

CT21 - Free Surface Flows

CT22 - Geomechanics

CT27 - Industrial Applications

CT31 - Multi-Body and Non-Linear Dynamics

CT34 - Multi-Physics Problems

CT37 - Nuclear Engineering

IS02 - Advanced Particle Methods for Continuum Mechanics

IS05 - Discrete and Particle Methods in Solid and Structural Mechanics

IS07 - Fracture and Fragmentation With DEM

IS08 - Granular Plasticity

IS10 - Industrial Applications of DEM and CFD-DEM

IS12 - Micro-Macro Methods: From Particles to Continuum

IS13 - Modelling Soil-Water-Structure Interaction Problems With the Particle Finite Element Method

IS14 - Multi-Physics Modeling With SPH Method

IS15 - Particle-Based Methods for Natural Hazards Simulation

IS17 - Particle Methods for Fluid-Structure Interactions

IS20 - The Material Point Method – Recent Advances

MM - PLENARY SESSION I

MA - PLENARY SESSION II

TM - PLENARY SESSION III