The Damage of ZnO Arrester Block Due To Multiple Impulse Currents

Tarcicius Haryono, K. Tunggul Sirait, Tumiran Tumiran, Hamzah Berahim

Abstract


 A lightning arrester installed in an electrical power system is designed to protect some electrical equipment against damage due to lightning impulse strike. However, if  there is  a multiple impulse  current striking a lightning arrester, it may damage  the lightning arrester itself and then, as a result,  it cannot provide lightning protection to  the electrical equipment anymore. In this research, three peak values of lightning impulse current,which were  600, 1300, and 2500A, each of which had 5 repetitive impulse current, was  applied to a 5000A (1p.u.) ZnO block of a 24kV nominal voltage lightning arrester having seven ZnO block units. The results of research showed that by applying impulse current  of the order of 600(0.12), 1300(0.26), dan 2500(0.5) A(p.u.), making the ZnO block damage as much as 26.58, 50, and 100% concecutively. In addition, the damage of the ZnO block appeared as permanen low value of residual voltage as low as more than 5% of the new ZnO block residual voltage. If the ZnO block is still being used in a lightning arrester in electrical power system, it may result in the opening of a circuit breaker and possibly making electrical power outages from a number of electrical power customers.


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References


Short TA, Burke JJ, Mancao RT. Application of MOV’s in the Distribution Environment. IEEE Transactions on Power Delivery. 1994; l.9(1): 293-305.

Zoro R. Insulation Coordination and Overvoltages due to Lightning Strike to Electricl Power System. The 3rd National Conference on Electrical Power Technique. 1993; 603.1-1-20

Haddath H, Warne D. Advances in High Voltage Engineering. IEE Power and Energy Series 40. the Insitution of Electrical Engineering. Bormin, Cornwall: MP Books Limited. 2004: 229.

Darveniza M, Mercer DR. Laboratories Studies of the Effects of Multipulse Lightning Currents on Distribution Surge Arrester. IEEE Transactions on Power Delivery. 1993; l.8(3): 1035-1044.

IEC 99-4. International Standard. Surge Arresters. Part 4: Metal Oxide Surge Arresters without Gaps for A.C. Systems. Geneva. 1991: 69.

Miyaki S, Sakoda T, Otsubo M, Miyake T, Nakata N, and Knoshita F. Characteristics of Deteriorated ZnO Elements with Striped-Shaped Destruction Trace. 15th Asian Conference on Electrical Discharge. X’ian. China. 2010: A14.

Bok-Hee L, Sun-Man K. Properties of ZnO Varistor Blocks Under Multiple Lightning Impulse Voltage. Science Directs. 2006: 845-851.

Sakyo H, Yoji Y, Hideaki N. Effect of local Electrical Properties on the Electrostatic Discharge Withstand Capability of Multilayered Chip ZnO Varistors. Journal of Applied Physics. July 2008; 104(1): 013701-013712.

Pramanick A, Jones J. Measurement of Structural Changes in Tetragonal PZT Ceramics under Static and Cyclic Electric Fields Using a Laboratory X-ray Diffractometer. IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control. Aug 2009; 56(8): 1546-1554.

Munukutla K, Vittal V, Heydt GT, Chipman D, Keel B. A Practical Evaluation of Surge Arrester Placement for Transmission Line Lightning Protection. IEEE Transactions on Power Delivery. July 2010; 25(3): 1742-1748.

Fujiwara Y, Shibuya Y, Imataki M, Nitta T. Evaluation of Surge Degradation of Metal Oxide Surge Arrester. IEEE Transaction on Power Apparatus and System. 1982; PAS-101 (4): 978-985.

Kojima S, Oyama N, Yamashita M. Potential Distribution of Metal Oxide Surge Arrester Under Various Environmental Conditions. IEEE Transactions on Power Delivery. 1988; 3(3): 984-989.




DOI: http://doi.org/10.12928/telkomnika.v9i1.685

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