Simulation of concentrated suspensions using the force-coupling method
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Publication:2270079
DOI10.1016/j.jcp.2009.11.041zbMath1303.76012OpenAlexW2031824380MaRDI QIDQ2270079
Publication date: 12 March 2010
Published in: Journal of Computational Physics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.jcp.2009.11.041
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Related Items (25)
Methods for suspensions of passive and active filaments ⋮ Numerical simulations of concentrated suspensions of monodisperse particles in a Poiseuille flow ⋮ Parallel accelerated Stokesian dynamics with Brownian motion ⋮ Large-scale simulation of steady and time-dependent active suspensions with the force-coupling method ⋮ Numerical investigation of channel blockage by flowing microparticles ⋮ A fictitious domain approach for the simulation of dense suspensions ⋮ Fluctuating force-coupling method for simulations of colloidal suspensions ⋮ Effect of Stokes number and particle-to-fluid density ratio on turbulence modification in channel flows ⋮ Improving particle drag predictions in Euler-Lagrange simulations with two-way coupling ⋮ A compatible high-order meshless method for the Stokes equations with applications to suspension flows ⋮ Pairwise interaction extended point-particle model for a random array of monodisperse spheres ⋮ An Immersed Boundary Method With Subgrid Resolution and Improved Numerical Stability Applied to Slender Bodies in Stokes Flow ⋮ An accurate and efficient method for treating aerodynamic interactions of cloud droplets ⋮ Direct numerical simulation of two-dimensional channel flows of electro-rheological fluids ⋮ A spatially adaptive high-order meshless method for fluid-structure interactions ⋮ Identification of internal properties of fibres and micro-swimmers ⋮ Shear thinning in non-Brownian suspensions explained by variable friction between particles ⋮ A general formulation of bead models applied to flexible fibers and active filaments at low Reynolds number ⋮ Spectral Ewald acceleration of Stokesian dynamics for polydisperse suspensions ⋮ Rheological evaluation of colloidal dispersions using the smoothed profile method: formulation and applications ⋮ Numerical simulation of rigid particles in Stokes flow: lubrication correction for general shapes of particles ⋮ Fast Stokesian dynamics ⋮ Hydrochemical interactions of phoretic particles: a regularized multipole framework ⋮ Fast simulation of particulate suspensions enabled by graph neural network ⋮ Frame-invariant sub-grid corrections to the fictitious domain method for the simulation of particulate suspensions in nonlinear flows using OpenFOAM
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