Further enhancement of the particle shifting technique: towards better volume conservation and particle distribution in SPH simulations of violent free-surface flows
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Publication:2240369
DOI10.1016/j.apm.2021.08.014zbMath1481.76162OpenAlexW3198295889MaRDI QIDQ2240369
Publication date: 3 November 2021
Published in: Applied Mathematical Modelling (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.apm.2021.08.014
volume conservationsmoothed particle hydrodynamicssloshingweakly-compressible SPHdam breakingparticle shifting techniqueviolent free-surface flows
Related Items (14)
SPH method for long-time simulations of sloshing flows in LNG tanks ⋮ A consistent multiphase flow model with a generalized particle shifting scheme resolved via incompressible SPH ⋮ A block-based adaptive particle refinement SPH method for fluid-structure interaction problems ⋮ Extraction of Lagrangian coherent structures in the framework of the Lagrangian-Eulerian stabilized collocation method (LESCM) ⋮ A new particle shifting technique for SPH methods based on Voronoi diagram and volume compensation ⋮ A class of second-derivatives in the smoothed particle hydrodynamics with 2nd-order accuracy and its application to incompressible flow simulations ⋮ Enhanced resolution of the continuity equation in explicit weakly compressible SPH simulations of incompressible free-surface fluid flows ⋮ Incompressible \(\delta\)-SPH via artificial compressibility ⋮ A coupled particle model with particle shifting technology for simulating transient viscoelastic fluid flow with free surface ⋮ Volume conservation issue within SPH models for long-time simulations of violent free-surface flows ⋮ Smoothed particle hydrodynamics modelling of particle-size segregation in granular flows ⋮ An efficient correction method in Riemann SPH for the simulation of general free surface flows ⋮ Improved Lagrangian coherent structures with modified finite-time Lyapunov exponents in the PIC framework ⋮ A multi-resolution SPH-FEM method for fluid-structure interactions
Uses Software
Cites Work
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