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Effect of bend angle on granular size segregation in the chute flow under periodic flow inversion

Segregation of granular homogeneous mixtures is a common problem faced by many industries. In recent years, periodic flow inversions have shown to mitigate both size and density segregation. However, they are not fully explored. In this paper, we investigate the effect of bend angle (θ) in the chute...

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Published in:	Powder technology 2020-01, Vol.360, p.177-192
Main Authors:	Mantravadi, Bhargav, Tan, Danielle S.
Format:	Article
Language:	English
Subjects:	Bends Chutes DEM simulations Discrete element method Granular flows Homogeneous mixtures Inversions Periodic flow inversion Segregation Size determination Three dimensional flow
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description	Segregation of granular homogeneous mixtures is a common problem faced by many industries. In recent years, periodic flow inversions have shown to mitigate both size and density segregation. However, they are not fully explored. In this paper, we investigate the effect of bend angle (θ) in the chute flow using three-dimensional Discrete Element Method (DEM) simulations. We observed a significant difference in size segregation when changing the bend angle (θ) in terms of qualitative behavior and extent of segregation. For moderate and dense regimes, minimum segregation is observed for bend angle range of 120°–150°. Based on our results, we propose to use chutes with periodic 150° bends instead of vertical chutes, to reduce segregation and thus improve mixing. [Display omitted] •Investigated the effect of bend angle on size segregation in periodic flow inversion using DEM simulations.•A drop in segregation intensity is observed with increasing bend angle of the chute.•Reversal in Segregation flux direction is observed for moderate regime.•For moderate and dense regimes, minimum segregation is observed for bend angle range of 120°–150°.
doi_str_mv	10.1016/j.powtec.2019.10.005
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subjects	Bends Chutes DEM simulations Discrete element method Granular flows Homogeneous mixtures Inversions Periodic flow inversion Segregation Size determination Three dimensional flow
title	Effect of bend angle on granular size segregation in the chute flow under periodic flow inversion
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