Applicability of Messenger Wire for Purpose of Lightning Protection |
Seo, Hun Chul
(School of IT Engineering, Yonam Institue of Digital Technolgy)
Han, Joon (College of Information and Communication Engineering, Sungkyunkwan University) Choi, Sun Kyu (Power System Laboratory) Lee, Byung Sung (Power System Laboratory) Rhee, Sang Bong (Department of Electrical Engineering, Yeungnam University) Kim, Chul Hwan (College of Information and Communication Engineering, Sungkyunkwan University) |
1 | Keon-Woo Park, Hun-Chul Seo, Chul-Hwan Kim, Chang-Soo Jung, Yeon-Pyo Yoo, Yong-Hoon Lim, “Analysis of the Neutral Current for Two-Step-Type Poles in Distribution Lines”, IEEE Transactions on Power Delivery, Vol. 24, No. 3, pp. 1483-1489, July 2009. DOI |
2 | W. A. Chisholm, K.L. Cummins, K.L, “Lightning protection of Smart Grid components”, International Symposium on Lightning Protection 2011, October 3-7, 2011. |
3 | Mario Paolone, Carlo Alberto Nucci, Emanuel Petrache, and Farhad Rachidi, “Mitigation of Lightning-Induced Overvoltages in Medium Voltage Distribution Lines by Means of Periodical Grounding of Shielding Wires and of Surge Arresters: Modeling and Experimental Validation”, IEEE Trans. On Power Delivery, Vol. 19, No. 1, pp. 423-431, January 2004. DOI |
4 | Alberto Borghetti, Carlo Alberto Nucci, Mario Paolone, “An Improved Procedure for the Assessment of Overhead Line Indirect Lightning Performance and Its Comparison with the IEEE Std. 1410 Method”, IEEE Transactions on Power Delivery, Vol. 22, No. 1, pp. 684-692, January 2007. DOI |
5 | S. Yokoyama, K. Yamamoto, and H. Kinoshita, "Analogue simulation of lightning induced voltages and its application for analysis of overhead-ground-wire effects," Proc. Inst. Elect. Eng., vol. 132, no. C-4, pp. 208-216, 1985. |
6 | V. Rakov and F. Rachidi, “Overview of recent progress in lightning research and lightning protection”, IEEE Trans. on Electromagnetic Compatibility, vol. 51, no. 3, pp. 428-442, Aug. 2009. DOI |
7 | CRIEPI, "Guide of Lightning Protection Design for Power Distribution Lines", JAPAN, 2002. |
8 | Ametani, T. Kawamura, “A Method of a Lightning Surge Analysis Recommended in Japan using EMTP”, IEEE Trans. On Power Delivery, Vol. 20, No. 2, pp. 867-875, April 2005. |
9 | H. Motoyama, Y. Kinoshita, and K. Nonaka, “Experimental study on lightning surge response of 500-kV transmission tower with overhead lines”, IEEE Trans. Power Delivery, vol. 23, no. 4, pp. 2488-2495, Oct. 2008. DOI |
10 | Hun-Chul Seo, Chul-Hwan Kim, “Analysis of Stability of PV System using the Eigenvalue according to the Frequency Variation and Requirements of Frequency Protection”, Journal of Electrical Engineering & Technology. Vol. 7, no. 4, pp. 480-485, July 2012. DOI |
11 | In-Soo Kim, Woong Han, Sang-Min Yeo, Chul-Hwan Kim, Bong-Ju Weon, Yong-Hun Lim, “A Study on Shielding Effect of the Messenger Wires in Distribution Lines”, Trans. KIEE, Vol. 58, No. 3, pp. 431-436, Mar 2009. |
12 | F. Heidler, J. M. Cvetic, and B. V. Stantic, “Calculation of lightning current parameters”, IEEE Trans. On Power Delivery, vol. 14, no. 2, pp. 399-404, Apr. 1999. DOI |
13 | C. A. Jordan, “Lightning computations for transmission lines with overhead ground wires, Part II,” Gen. Electr. Rev., vol. 37, no. 4, pp. 180-186, 1934. |
14 | Alberto De Conti, Silvério Visacro, Amilton Soares, Jr., Marco Aurélio Schroeder, “Revision, Extension, and Validation of Jordan’s Formula to Calculate the Surge Impedance of Vertical Conductor”, IEEE Trans. on Electromagnetic Compatibility, Vol. 48, No. 3, August 2006. |
15 | “Guide for improving the lightning performance of electric power overhead distribution lines”, IEEE Std 1410, 2010, IEEE Working Group on the lightning performance of distribution lines. |
16 | Hans Kristian Hoidalen, “Analytical Formulation of Lightning-Induced Voltages on Multiconductor Overhead Lines Above Lossy Ground”, IEEE Transactions on Electromagnetic Compatibility, Vol. 45, No. 1, pp. 92-100, February 2003. DOI |