Coarse-grained DEM study of solids sedimentation in water

The so-called coarse-grained discrete element method (DEM) is used here for efficient simulations of large-scale particle systems as its effectiveness has been successfully verified previously on the processes such as spouted beds, pneumatic conveying systems and bubbling fluidized beds. In this stu...

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Published in:Powder technology 2020-02, Vol.361, p.21-32
Main Authors: Xie, Zhouzun, Shen, Yansong, Takabatake, Kazuya, Yamaguchi, Akira, Sakai, Mikio
Format: Article
Language:English
Subjects:
Bubbling
CFD–DEM method
Coarse-grained DEM
Computational fluid dynamics
Computer applications
Computer simulation
Discrete element method
Fluidized beds
Granulation
Liquid flow
Pneumatic conveyors
Potential energy
Sedimentation
Sedimentation & deposition
Solid-liquid system
Solids
Spouted beds
System effectiveness
Systems analysis
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cited_by cdi_FETCH-LOGICAL-c380t-6d44e10c4417239f036b805b0ded88db8ae0b08f3f5d49c97b838673b02377833
cites cdi_FETCH-LOGICAL-c380t-6d44e10c4417239f036b805b0ded88db8ae0b08f3f5d49c97b838673b02377833
container_end_page 32
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container_start_page 21
container_title Powder technology
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creator Xie, Zhouzun
Shen, Yansong
Takabatake, Kazuya
Yamaguchi, Akira
Sakai, Mikio
description The so-called coarse-grained discrete element method (DEM) is used here for efficient simulations of large-scale particle systems as its effectiveness has been successfully verified previously on the processes such as spouted beds, pneumatic conveying systems and bubbling fluidized beds. In this study, the coarse-grained DEM method is used to study the solid-liquid flow in the process of sedimentation of solids in water. Four specific types of particle systems are considered to verify the effectiveness of the coarse-grained model qualitatively and quantitatively, the particle systems considered being: the original-sized particle system; the coarse-grained particle systems in two different coarse graining ratios, and the simple large particle system. For qualitative evaluations of these systems, the evolutions of the sedimentation state, characterized by fluid velocity distributions and contour maps of void fractions, are compared using a range of snapshots at different times. For quantitative comparisons, the physical indexes such as the change of particle volume fraction, the potential energy of particles and liquid pressure changes are evaluated. These systems are also compared using four cases with different variable values for further investigation of the effectiveness of the coarse graining DEM method under different conditions. The four cases consist of one base case and three parametric cases which are different in terms of the particle number and height of the computational domain. These comparisons show that, for all four cases, the coarse-grained system in fact produces results that are in good agreement with those of the original-sized particle system both qualitatively and quantitatively. However, the simple large particle system fails to achieve a reasonable agreement with the original-sized particle system. It can be thus concluded that the coarse-grained model is a cost-effective and reliable tool to simulate the process of large-scale solids sedimentation in water. [Display omitted] •Coarse-grained DEM model is developed for studying solids sedimentation in water.•Qualitative and quantitative comparisons verify the effectiveness of coarse-grained DEM model.•The effectiveness of coarse-grained DEM method is also verified under various particle number and domain height conditions.
doi_str_mv 10.1016/j.powtec.2019.11.034
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subjects Bubbling
CFD–DEM method
Coarse-grained DEM
Computational fluid dynamics
Computer applications
Computer simulation
Discrete element method
Fluidized beds
Granulation
Liquid flow
Pneumatic conveyors
Potential energy
Sedimentation
Sedimentation & deposition
Solid-liquid system
Solids
Spouted beds
System effectiveness
Systems analysis
title Coarse-grained DEM study of solids sedimentation in water
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