DEM Literature Database
We found 50 result(s).
We found 50 result(s).
|Quantitative study of the rheology of frictional suspensions: Influence of friction coefficient in a large range of viscous numbers||B. Chareyre, H. Bodiguel, W. Chevremont||2019||Physical Review E||American Physical Society|
|Analysis of inertial migration of neutrally buoyant particle suspensions in a planar Poiseuille flow with a coupled lattice Boltzmann method-discrete element method||C. Wu, W. Liu||2019||Physics of Fluids||American Institute of Physics|
|Fluid medium effect on stresses in suspensions of high-inertia rod-like particles||J. Mehmood, J.T. Padding, V. V. Mahajan, Y.M.F. El Hasadi||2019||Chemical Engineering Science: X||Elsevier|
|Numerical modeling of solid particles motion in suspensions using Smoothed Particle Hydrodynamics||H. Steeb, N. Kijanski||2018||Proceedings in Applied Mathematics and Mechanics||Wiley|
|Improved coupling of time integration and hydrodynamic interaction in particle suspensions using the lattice Boltzmann and discrete element methods||C.R. Leonardi, D. Wang, S.M. Aminossadati||2018||Computers & Mathematics with Applications||Elsevier|
|Electromagnetic excitation of particle suspensions in hydraulic fractures using a coupled lattice Boltzmann-discrete element model||B. D. Jones, C.R. Leonardi, J. R. Williams, J. W. S. McCullough||2017||Computational Particle Mechanics||Springer|
|An efficient LBM-DEM simulation method for suspensions of deformable preformed particle gels||C. Yao, J. Hou, K. Zhou, L. Guo, Q. Du, Q. Sun, S. Bing||2017||Chemical Engineering Science||Elsevier|
|Development of an unresolved CFD–DEM model for the flow of viscous suspensions and its application to solid–liquid mixing||B. Blais, C. Goniva, F. Bertrand, L. Fradette, M. Lassaigne||2016||Journal of Computational Physics||Elsevier|
|Granular-front formation in free-surface flow of concentrated suspensions||A. Leonardi, F. K. Wittel, H.J. Herrmann, M. Cabrera, M. Mendoza, R. Kaitna, W. Wu||2015||Physical Review E||American Physical Society|
|Flow regime transitions in dense non-Brownian suspensions: Rheology, microstructural characterization, and constitutive modeling||C. Ness, J. Sun||2015||Physical Review E||American Physical Society|