Abstract
As a result of the work, a new configuration of the electrode system was investigated based on the application of the particle behavior prediction method. The new configuration of the electrode system allows for a lower supply voltage to increase the bulk density of the electric field charge in the interelectrode space, to increase the time of the dust particle in the interelectrode space, and also reduces the risk of electrical discharges on the corona electrodes. Calculation on the developed special software product was made for different geometry of the interelectrode window (120,150,200 microns). Computer simulation of physical processes in the interelectrode space, analysis of the dynamics of the charge set by the dust particle, as well as calculation of the forces acting on the dust particle confirmed the efficiency of the chosen geometry of the electrode system.
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