Design and Manufacturing of a One Million Volt Residual Voltage Lightning Current Generator
Subject Areas : electrical and computer engineeringAlireza Omidkhoda 1 , J. Jafari Behnam 2 , M. S. Mirghafourian 3 , A. Geraieli 4 , Hamidreza Sadegh Mohammadi 5
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5 - پژوهشکده برق جهاد دانشگاهی
Abstract :
The production of the lightning impulse current is very important for research and Standard quality control tests. Conduction of IEC standard type tests on metal-oxide high voltage surge arresters needs a lightning impulse current generator system that is able to produce both lightning impulse current and simultaneous several kV residual voltage. This paper describes the design and manufacturing of a one million volt residual voltage, 10 kA lightning current generator system and the innovation in design of an integrated high voltage air core reactor. Experimental laboratory tests show the good performance of the manufactured generator and its capability to perform standard type test on metal-oxide high voltage surge arresters.
[1] A. Ur-Rehman and N. Khan, "Design and fabrication of a high voltage lightning impulse generator," Engineering, vol. 8, no. 3, pp. 69-73, Mar. 2016.
[2] P. Yash, S. Rahul, and S. Dave, "Multistage impulse voltage generator," International J. of Advance Research in Engineering, Science & Technology, 5 pp., 2016.
[3] S. Fathima, N. Mariya, and S. Ali, "Performance of a multi-stage impulse generator," International J. of Ethics in Engineering & Management Education, vol. 2, no. 2, pp. 57-63, Feb. 2015.
[4] ع. امیدخدا، ج جعفری بهنام و س. م. ص. میرغفوریان، "طراحی و ساخت مجموعه آزمایشگاهی تولید ولتاژ ضربه صاعقه و سوئیچینگ 1800 کیلوولت 180 کیلوژول،" مجموعه مقالات بیست و سومین کنفرانس مهندسی برق ایران، صص. 324-319، تهران، 24-20 ارديبهشت 1394.
[5] M. Jayaraju, I. Daut, and M. Adzman, "Impulse voltage generator modelling using MATLAB," World J. of Modelling and Simulation, vol. 4, no. 1, pp. 57-63, 2008.
[6] K. Schon, High Impulse Voltage and Current Measurement Techniques, Springer International Publishing Switzerland, 2013.
[7] IEC Publication 60099-4, Metal Oxide Arresters without Gaps for AC Systems, Edition 2.2, 2009-05.
[8] C. H. Stuckenholz and M. Gamlin, "Overview of impulse current test standards and the impact on test equipment," in Proc. Int. Conf. on Lightning Protection, ICLP'12, 6 pp., Vienna, Austria, 2-7 Sept. 2012.
[9] P. Yutthagowith and N. Pattanadech, "A program for design of impulse current generator circuits," in Proc. Int. Conf. on Condition Monitoring and Diagnosis, CMD'08, 4 pp., Beijing, China, 21-24 Apr. 2008.
[10] S. Pack and S. Jaufer, "Evaluation of an impulse current test generator using numerical simulation tool," in Proc. Int. Conf. on Power Systems Transients, IPST'03, 4 pp., New Orleans, USA, 28 Sept.- 2 Oct.. 2003.
[11] M. S. Naidu and V. Kamaraju, High Voltage Engineering, 2nd Edition, Teta McGraw-Hill, 1998.
[12] Y. Lin and Q. Zhou, "Impulse current testing system for simulating lightning effect," in Proc. Int. Conf. on Audio, Language, and Image Processing, ICALIP'14, pp. 656-661, 7-9 Jul. 2014.
[13] L. F. Shatz and C. W. Christensen, Numerical Inductance Calculations Based on First Principles, Nov. 2014, PLoS ONE 9(11): e111643. doi: 10.1371/journal.pone.0111643.
[14] J. Vasilj, P. Sarajcev, and R. Goic, "Modeling of current-limiting air-core series reactor for transient recovery voltage studies," Electric Power Systems Research, vol. 117, pp. 185-191, Dec. 2014.
[15] IEC Publication 60060-2, High Voltage Test Techniques, Part 2: Measuring Systems, 2010.
[16] E. Kuffel, W. S. Zaengl, and J. Kuffel, High Voltage Engineering Fundamentals, 2nd Edition, Published by Butterworth-Heinemann, 2000.
[17] I. A. Metwally, "Self-integrating rogowski coil for high-impulse current measurement," IEEE Trans. on Instrumentation and Measurement, vol. 59, no. 2, pp. 353 - 360, Feb. 2010.
[18] IEC Publication 60060-1, High Voltage Test Techniques, Part 1: General Definitions and Test Requirements, Edition 3.0, 2010-09.