DocumentCode
1513365
Title
Multiple-needle corona electrodes for electrostatic processes application
Author
Dascalescu, Lucian ; Samuila, Adrian ; Rafiroiu, Dan ; Iuga, Alexandru ; Morar, Roman
Author_Institution
CNRS, Grenoble, France
Volume
35
Issue
3
fYear
1999
Firstpage
543
Lastpage
548
Abstract
Corona from high-voltage electrodes is employed in various electrostatic installations, such as ozonizers, air filters, powder sprayers and separators. Multiple-needle electrode designs are preferred whenever low corona onset voltage and good resistance to mechanical shocks are required. This paper aims at identifying a simple solution to overcome the main drawback of this type of electrode, the nonuniformity of the generated space charge. Experiments were carried out with various models of electrodes, having one or several rows of stainless steel needles. A current probe, consisting of an enameled copper wire (0.4 mm diameter), was embedded in the center of a plane collecting electrode. For a given interelectrode distance (5-50 mm) and a fixed position of the multiple-needle electrode, the collecting plate was translated along two orthogonal directions, so that the current probe could scan a 75 mm×75 mm square. The results depended on the interelectrode distance and on the high-voltage level. An explanation is given to some observations made on a roll-type electrostatic separator provided with two models of multiple-needle corona electrodes. An improved electrode design was proposed for the industrial installations
Keywords
corona; electrodes; electrostatic devices; electrostatics; space charge; 0.4 mm; 75 mm; air filters; current probe; electrostatic processes application; high-voltage electrodes; interelectrode distance; multiple-needle corona electrodes design; ozonizers; plane collecting electrode; powder sprayers; separators; space charge nonuniformity; Air cleaners; Corona; Electric shock; Electrodes; Electrostatic processes; Low voltage; Particle separators; Powders; Probes; Spraying;
fLanguage
English
Journal_Title
Industry Applications, IEEE Transactions on
Publisher
ieee
ISSN
0093-9994
Type
jour
DOI
10.1109/28.766999
Filename
766999
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