Experimental verification of the force coupling method for particulate flows
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Publication:5451209
DOI10.1016/S0301-9322(01)00045-3zbMath1136.76564MaRDI QIDQ5451209
Martin R. Maxey, Sune Lomholt, B. Stenum
Publication date: 27 March 2008
Published in: International Journal of Multiphase Flow (Search for Journal in Brave)
Related Items (19)
Force-coupling method for particulate two-phase flow: Stokes flow. ⋮ A correction scheme for wall-bounded two-way coupled point-particle simulations ⋮ A modified immersed boundary method for simulations of fluid-particle interactions ⋮ Numerical investigation of channel blockage by flowing microparticles ⋮ Numerical study of educed coherent structures in the near-wall region of a particle-laden channel flow ⋮ Accuracy of finite volume/staggered grid distributed Lagrange multiplier/fictitious domain simulations of particulate flows ⋮ A variable-density fictitious domain method for particulate flows with broad range of particle-fluid density ratios ⋮ Spectral distributed Lagrange multiplier method: algorithm and benchmark tests ⋮ Drag model from interface-resolved simulations of particle sedimentation in a periodic domain and vertical turbulent channel flows ⋮ Incorporation of lubrication effects into the force-coupling method for particulate two-phase flow. ⋮ Simulating the interactions of two freely settling spherical particles in Newtonian fluid using lattice-Boltzmann method ⋮ A DEM-DLM/FD method for direct numerical simulation of particulate flows: sedimentation of polygonal isometric particles in a Newtonian fluid with collisions ⋮ Dynamics of bidisperse suspensions under Stokes flows: Linear shear flow and sedimentation ⋮ Collision barrier effects on the bulk flow in a random suspension ⋮ Simulation of concentrated suspensions using the force-coupling method ⋮ A fictitious domain method for particulate flows with heat transfer ⋮ Particle-scale computational approaches to model dry and saturated granular flows of non-Brownian, non-cohesive, and non-spherical rigid bodies ⋮ Smoothed profile method for particulate flows: error analysis and simulations ⋮ Force-coupling method for flows with ellipsoidal particles
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