Experimental modeling of high-voltage corona discharge using design of experiments |
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Authors: | Rezzouga M Tilmatine A Gouri R Medles K and Dascalescu L |
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Affiliation: | (1) Electrostatics and H.V Research Unit, IRECOM Laboratory and University of Sidi-Bel-Abbes, 22000, Algeria;(2) Electronics and Electrostatics Research Unit, LAII-ESIP University Institute of Technology, Angoulême, University of Poitiers, 16021, France |
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Abstract: | Many studies, both experimental and numerical, were devoted to the electric current of corona discharge and some mathematical
models were proposed to express it. As it depends on several parameters, it is difficult to find a theoretical or an experimental
formula, which considers all the factors. So we opted for the methodology of experimental designs, also called Tagushi’s methodology,
which represents a powerful tool generally employed when the process has many factors to consider. The objective of this paper
is to model current using this experimental methodology. The factors considered were geometrical factors (interelectrode interval,
surface of the grounded plane electrode, curvature radius of the point electrode), climatic factors (temperature and relative
humidity), and applied high voltage. Results of experiments made it possible to obtain mathematical models and to analyse
the interactions between all factors. |
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Keywords: | design of experiments modeling high voltage corona discharge |
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