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Proceedings Paper

Application of image converter camera for investigation of discharges from an artificial cloud of charged water aerosol
Author(s): A. G. Temnikov; V. B. Lebedev; G. G. Feldman; L. L. Chernensky; A. V. Orlov; V. P. Pisarev
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Paper Abstract

Results of experimental investigations of optical characteristics of discharges from an artificial cloud of charged water aerosol by using the K011miniature 9-frame image converter camera are presented in the paper. Application of high speed image converter camera has allowed clearly distinguished the peculiarities of a final stage of three types of discharges from the charged aerosol clouds. Each type of final stage is differed not only on optical and current characteristics, but the sequence of formation. It was found that the type of final stage depends on character of development the previous leader discharges in the gap "charged aerosol cloud-grounded rod on the plate". The most frequently case is the formation of final stage after development of upward leader from the grounded rod and of counterpart negative downward leader from the charged aerosol cloud boundaries. Simultaneously registered current characteristics have shown significant correlation between optical and current characteristics of final stage of discharge. More powerful discharge luminosity the higher current amplitude and the shorter final stage of discharge.

Paper Details

Date Published: 11 January 2007
PDF: 10 pages
Proc. SPIE 6279, 27th International Congress on High-Speed Photography and Photonics, 62790H (11 January 2007); doi: 10.1117/12.725095
Show Author Affiliations
A. G. Temnikov, Moscow Power Engineering Institute (TU) (Russia)
V. B. Lebedev, BIFO Co. (Russia)
G. G. Feldman, BIFO Co. (Russia)
L. L. Chernensky, Moscow Power Engineering Institute (TU) (Russia)
A. V. Orlov, Moscow Power Engineering Institute (TU) (Russia)
V. P. Pisarev, Moscow Power Engineering Institute (TU) (Russia)

Published in SPIE Proceedings Vol. 6279:
27th International Congress on High-Speed Photography and Photonics

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