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A New Approach to On-Line Monitoring Device for ZnO Surge Arresters  

Lee Bok-Hee (Research Center for Next-generation High Voltage and Power Technology, School of Electrical Engineering, Inha University)
Gil Hyoung-Jun (Dept. of Electrical Engineering, Inha University)
Kang Sung-Man (Dept. of Electrical Engineering, Inha University)
Publication Information
KIEE International Transactions on Electrophysics and Applications / v.5C, no.3, 2005 , pp. 131-137 More about this Journal
Abstract
This paper describes a new approach to the algorithm and fundamental characteristics of the device for monitoring the leakage currents flowing through zinc oxide (ZnO) surge arresters. In order to obtain a technique for a new on-line monitoring device that can be used in the deterioration diagnosis of ZnO surge arresters, the new algorithm and on-line leakage current detection device for extracting the resistive and capacitive currents using the phase shift addition method were proposed. The computer-based on-line monitoring device can sense accurately the power frequency leakage currents flowing through ZnO surge arresters. The on-line leakage current monitoring device of ZnO surge arresters proposed in this work has the high sensitivity compared to the third harmonic leakage current detection devices. As a consequence, it was found that the proposed leakage current monitoring device would be useful for forecasting the defects and degradation of ZnO surge arresters.
Keywords
ZnO surge arrester; Leakage currents; Deterioration diagnosis; On-line monitoring device; Phase shift addition method; Surge protective device;
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1 L.M. Faulkenberry, W. Coffer, Electrical Power Distribution and Transmission, Prectice Hall, Inc. pp.189-196, 1996
2 J. Lundquist, L. Stenstrom, A. Schei and B. Hansen, 'New Method for Measurement of the Resistive Leakage Currents of Metal-Oxide Surge Arresters in Service', IEEE Trans. Vol.PD-5, No.4, pp.1811-1822, 1990
3 Bok-Hee Lee and Sung-Man Kang, 'A new on-line leakage current monitoring system of ZnO Surge Arresters' Materials Science and Engineering B, accepted for publication on Dec. 2004
4 Bok-Hee Lee, Sung-Man Kang, Ju-Hong Eom, Tatsuo Kawamura, 'A Monitoring Device of Leakage Currents Flowing through ZnO Surge Arresters' Japanese Journal of Applied Physics, Vol.42, Pt 1, No.4A, pp.1568-1574, 2003   DOI
5 W. G. carlson, Dr. T. K. Gupta, A. Sweetana, 'A procedure for estimating the life time of gapless metal oxide surge arresters for AC application', IEEE Trans. Vol.PWRD-1, No.2, 67-74, 1986
6 A. Haddad, J. Fuentes-Rosado, D. M. German, and R. T. Warwes, 'Characterisation of ZnO surge arrester elements with direct and power frequency voltages', IEE Proc., Vol.137, Pt. A, No.5, pp.269-279, 1990
7 T. Klein, W. Kohler, K. Feser, W. Schmidt, and R. Bebensee, 'A New Monitoring System for Metal Oxide Surge Arresters', Proc. 11th ISH, Paper 2. 302, 1999
8 M. Oyama, I. Ohshima, M. Honda, 'Life performance of zinc-oxide elements under DC voltage', IEEE Trans. Vol.PAS-101, No.6, pp.1364-1368, 1982
9 S. Shirakawa, F. Endo, H. Kitajima, S. Kobayashi, K. Kurita, K. Goto, M. Sakai, 'Maintenance of surge arrester by a portable arrester leakage current detector', IEEE Trans. Vol.PD-3, No.3, pp.998-1003, 1988
10 M. Matsuoka, 'Nonohmic properties of Zinc Oxide Ceramics', Japanese Journal of Applied Physics, Vol. 10, No. 6, pp.736-741, 1971   DOI
11 C.A. Spellman, A. Haddad, 'A technique for on-line monitoring of ZnO arresters', Proc. 10th ISH, Vol.4, pp.148-151, 1997
12 K. Sato, Y. Takada and H. Maehama, 'Electrical Conduction of ZnO Varistors under Continuous DC Stress', Japanese Journal of Applied Physics, Vol. 19, No. 5, pp.909-915, 1980   DOI