4.5 Article

DEM investigation on conveying of non-spherical particles in a screw conveyor

Journal

PARTICUOLOGY
Volume 65, Issue -, Pages 17-31

Publisher

ELSEVIER SCIENCE INC
DOI: 10.1016/j.partic.2021.06.009

Keywords

DEM; Screw conveyor; Super-ellipsoid particle; Non-spherical particle; Wear

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This study investigates the conveying process of non-spherical particles in a horizontal screw conveyor using the discrete element method (DEM). The results show that particle shape greatly influences particle flow behaviors and conveyor wear. Additionally, the study reveals that particle sphericity significantly affects conveying performance and power consumption of the screw conveyor.
Screw conveyors are extensively used in modern industry such as metallurgy, architecture and pharmaceutical due to their high-efficiency in the transportation of granular materials. And substantial efforts have been devoted to the study of the screw conveyors. Numerical method is an effective way to study screw conveyor. However, previous studies have mainly focused in the regime of spherical particles while the in-depth investigations for non-spherical particles that should be the most encountered in practical applications are still limited. In view of the above situations, discrete element method (DEM), which has been widely accepted in simulating the discrete systems, is utilized to investigate the conveying process of non-spherical particles in a horizontal screw conveyor, with particles being modeled by super-ellipsoids. In addition, a wear model called SIEM (Shear Impact Energy Model) is incorporated into DEM to predict the wear of screw conveyor. The DEM simulation results demonstrate that the particle shape is influential for the flow behaviors of particles and the wear of conveyor. The conveying performance evaluated quantitatively of both mass flow rate and power consumption is subsequently obtained to investigate the effect of sphericity of particle with different operation parameters. Moreover, particle collision frequency and collision energy consumption are acquired to investigate the possible particle breakage between particles and screw blade. The comparisons between particle-particle collision and particle-wall collision reveal that particles with large shape index have more possibility to be damaged in particle-wall impingement. (c) 2021 Chinese Society of Particuology and Institute of Process Engineering, Chinese Academy of Sciences. Published by Elsevier B.V. All rights reserved.

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