DocumentCode
3558560
Title
Charges and forces on conductive particles in roll-type corona-electrostatic separators
Author
Dascalescu, Lucian ; Mizuno, Akira ; Tobaz?©on, Robert ; Atten, Pierre ; Morar, Roman ; Iuga, Alexandru ; Mihailescu, Michaela ; Samuila, Adrian
Author_Institution
Tech. Univ. Cluj, Romania
Volume
31
Issue
5
fYear
1995
Firstpage
947
Lastpage
956
Abstract
Mathematical modelling is a powerful tool in the optimization of electroseparation technologies and equipment. This paper proposes the use of a numerical method of field analysis to evaluate more accurately the charges and forces on millimeter-size conductive particles of virtually any shape in contact with an electrode. A program based on the boundary-element method was tested for this purpose, and provided the input data to an algorithm for the computation of particle trajectories. The results were in good agreement with the observations made on a laboratory electroseparator. The effect of space charge on the behavior of conductive particles was studied with a three-electrode system (a grounded grid, between a corona electrode and a metallic plate, energized by two high-voltage supplies of opposite polarities). The accuracy of numerical simulations of electroseparation processes is expected to increase when a mathematical model of particle motion in DC corona fields will be incorporated in the existing computer programs
Keywords
boundary-elements methods; corona; electromagnetic forces; electrostatic devices; space charge; DC corona fields; boundary-element method; conductive particles; corona electrode; electroseparation technologies optimisation; grounded grid; high-voltage supplies; mathematical modelling; metallic plate; millimeter-size conductive particles; particle trajectories; roll-type corona-electrostatic separators; space charge; Corona; Electrodes; Laboratories; Mathematical model; Numerical simulation; Particle separators; Shape; Sorting; Space charge; Testing;
fLanguage
English
Journal_Title
Industry Applications, IEEE Transactions on
Publisher
ieee
ISSN
0093-9994
Type
jour
DOI
10.1109/28.464503
Filename
464503
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