4.6 Article

Radial mixing and segregation of binary density ellipsoids in a rotating drum

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CHEMICAL ENGINEERING RESEARCH & DESIGN
卷 197, 期 -, 页码 192-210

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ELSEVIER
DOI: 10.1016/j.cherd.2023.07.030

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Density mixing and segregation; Ellipsoidal particles; Multi-sphere model; DEM method

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This paper applies the Discrete Element Method (DEM) to study the radial mixing and segregation of ellipsoidal particles with different densities in a rotating drum. The results show that light particles tend to accumulate at the periphery of the granular bed, while heavy particles concentrate in the center area. Particle shape affects collision probability and strength, and ellipsoidal particles require more energy for movement.
In this paper, the Discrete Element Method (DEM) is applied to investigate the radial mixing and segregation of a binary mixture of ellipsoids with different densities in a rotating drum. The ellipsoidal particles are constructed with multi-sphere model, and the periodic boundary condition is adopted. The influences of aspect ratio and density ratio on the mixing quality and final segregation extent are examined. Simulation results show that, light particles are inclined to occupy at the periphery of the granular bed, whereas heavy ones concentrate in the center area. As particle aspect ratio deviates from unity, i.e. oblate or prolate shape, the mixing index is increased and final segregation degree is decreased. It is discovered that convective mixing is predominant over diffusion for any given particle shape (oblate, spherical, prolate). The prolate particles (AR=4.0) reveal the highest compactness of a binary mixture system in the rotating drum. Particle translation is the main movement mode and ellipsoids are more easily to rotate. Particle shape affects collision probability and strength, and ellipsoidal particles need more energy to be driven. The reduction of density ratio of light to heavy particles does inevitably contribute to a greater segregation degree. The results also indicate that the initial states of binary mixtures do not affect the final segregation patterns. (c) 2023 Institution of Chemical Engineers. Published by Elsevier Ltd. All rights reserved.

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