Detail publikace
Study on collision between single coarse particle and wall in viscous media using CFD–DEM
Chen, L. Wang, Y. Klemeš, J.J. Wang, J. Tao, W.
Anglický název
Study on collision between single coarse particle and wall in viscous media using CFD–DEM
Typ
článek v časopise ve Web of Science, Jimp
Jazyk
en
Originální abstrakt
Collision between particle and wall is common in granular two-phase flow. This study is helpful to optimise flow conveying system, reduce attrition between materials and devices, and improve development of economy. The collision between a single coarse particle (3 mm in diameter) and wall in a viscous media was investigated by Hertz–Mindlin no-slip contact model based on the coupled computational fluid dynamics and discrete element method (CFD-DEM). Effects of impact velocity and viscosity of media on contact processes and contact force are studied in this research. The calculated results from the collision model are consistent with experimental data, and contact velocity and viscosity of media show significant effects on the contact force of particles. With the reduction of the dimensionless number St, the ratio of unloading time to loading time increases significantly.
Anglický abstrakt
Collision between particle and wall is common in granular two-phase flow. This study is helpful to optimise flow conveying system, reduce attrition between materials and devices, and improve development of economy. The collision between a single coarse particle (3 mm in diameter) and wall in a viscous media was investigated by Hertz–Mindlin no-slip contact model based on the coupled computational fluid dynamics and discrete element method (CFD-DEM). Effects of impact velocity and viscosity of media on contact processes and contact force are studied in this research. The calculated results from the collision model are consistent with experimental data, and contact velocity and viscosity of media show significant effects on the contact force of particles. With the reduction of the dimensionless number St, the ratio of unloading time to loading time increases significantly.
Klíčová slova anglicky
Computational fluid dynamics; Discrete element method; Hertz–Mindlin model; Particle–wall collision; Two-phase flow
Vydáno
01.01.2023
Nakladatel
Elsevier Ltd
Místo
Amsterdam
ISSN
0997-7546
Číslo
97
Strany od–do
199–207
Počet stran
9
BIBTEX
@article{BUT180100,
author="Jiří {Klemeš} and Jin {Wang},
title="Study on collision between single coarse particle and wall in viscous media using CFD–DEM",
year="2023",
number="97",
month="January",
pages="199--207",
publisher="Elsevier Ltd",
address="Amsterdam",
issn="0997-7546"
}