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Motion analysis of flat particles on a round inertial screen
Year:
1992
Authors :
Feller, Ron
;
.
Zion, Boaz
;
.
Volume :
51
Co-Authors:
Zion, B., Agricultural Research Organization, Volcani centre, Bet-Dagan, Israel
Galili, N., Facility of Agricultural Engineering, Technion-Israel Institute of Technology, Haifa, Israel
Feller, R., Agricultural Research Organization, Volcani centre, Bet-Dagan, Israel
Facilitators :
From page:
113
To page:
128
(
Total pages:
16
)
Abstract:
A mathematical model of flat particle motion on a round inertial screen was derived. Following comparison between the numerical solution and experimental results, a parametric study was conducted using the model. It is demonstrated how screen parameters (geometry, masses and rotational speed), as well as static and dynamic particle friction, affect relative velocity between particle and screen, direction of motion, path length and residence time on the screen. The results can be used by designers and users of such machines to control the motion of particles as desired. © 1992 Silsoe Research Institute.
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DOI :
10.1016/0021-8634(92)80030-V
Article number:
0
Affiliations:
Database:
Scopus
Publication Type:
article
;
.
Language:
English
Editors' remarks:
ID:
23869
Last updated date:
02/03/2022 17:27
Creation date:
17/04/2018 00:03
Scientific Publication
Motion analysis of flat particles on a round inertial screen
51
Zion, B., Agricultural Research Organization, Volcani centre, Bet-Dagan, Israel
Galili, N., Facility of Agricultural Engineering, Technion-Israel Institute of Technology, Haifa, Israel
Feller, R., Agricultural Research Organization, Volcani centre, Bet-Dagan, Israel
Motion analysis of flat particles on a round inertial screen
A mathematical model of flat particle motion on a round inertial screen was derived. Following comparison between the numerical solution and experimental results, a parametric study was conducted using the model. It is demonstrated how screen parameters (geometry, masses and rotational speed), as well as static and dynamic particle friction, affect relative velocity between particle and screen, direction of motion, path length and residence time on the screen. The results can be used by designers and users of such machines to control the motion of particles as desired. © 1992 Silsoe Research Institute.
Scientific Publication
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