TY - JOUR
T1 - DEM study on the segregation of a non‐spherical intruder in a vibrated granular bed
AU - Qiao, Jinpeng
AU - Dong, Kejun
AU - Duan, Chenlong
PY - 2021
Y1 - 2021
N2 - The segregation process of a single large intruder in a vibrated bed of small particles has been widely studied, but most previous studies focused on spherical intruders. In this work, the discrete element method was used to study the effects of vibration conditions and intruder shape on the dimensionless ascending velocity (va) of the intruder. The intruder was in a prolate shape with aspect ratio varied but its equivalent diameter fixed. Three equivalent diameters, namely volume‐equivalent diameter, surface‐area‐equivalent diameter, and Sauter diameter, were used. It was found that va increases and then decreases with the rise of the dimensionless vibration amplitude (Ad) and the dimensionless vibration frequency (fd), and va increases with the decrease of the sphe-ricity of the intruder (Φ). Moreover, the porosity variation in the vibrated bed and the granular temperature were analyzed, which can be linked to the change of va. It was further found that va can 0.5 be uniformly correlated to Ad‧f d, while the critical change of the response of va to Ad and fd occurs at Γ = 4.83, where Γ is the vibration intensity. Based on these findings, a piecewise equation was pro-posed to predict va as a function of Ad, fd, and Φ.
AB - The segregation process of a single large intruder in a vibrated bed of small particles has been widely studied, but most previous studies focused on spherical intruders. In this work, the discrete element method was used to study the effects of vibration conditions and intruder shape on the dimensionless ascending velocity (va) of the intruder. The intruder was in a prolate shape with aspect ratio varied but its equivalent diameter fixed. Three equivalent diameters, namely volume‐equivalent diameter, surface‐area‐equivalent diameter, and Sauter diameter, were used. It was found that va increases and then decreases with the rise of the dimensionless vibration amplitude (Ad) and the dimensionless vibration frequency (fd), and va increases with the decrease of the sphe-ricity of the intruder (Φ). Moreover, the porosity variation in the vibrated bed and the granular temperature were analyzed, which can be linked to the change of va. It was further found that va can 0.5 be uniformly correlated to Ad‧f d, while the critical change of the response of va to Ad and fd occurs at Γ = 4.83, where Γ is the vibration intensity. Based on these findings, a piecewise equation was pro-posed to predict va as a function of Ad, fd, and Φ.
UR - https://hdl.handle.net/1959.7/uws:62619
U2 - 10.3390/pr9030448
DO - 10.3390/pr9030448
M3 - Article
SN - 2227-9717
VL - 9
JO - Processes
JF - Processes
IS - 3
M1 - 448
ER -