22.9kV 배전선로 중성선 설치 구조에 따른 유도뢰 차폐효과 분석

• Published in: 전기학회논문지. The Transactions of the Korean Institute of Electrical Engineers. P Vol. 59; no. 2; pp. 191 - 196
• Main Authors: 김점식, 김도영, 박용범, Kim, Jeom-Sik, Kim, Do-Young, Park, Yong-Beom
• Format: Journal Article
• Language: Korean
• Published: 2010
• Subjects: Distribution Line; Overhead Ground Wire(OHGW); Induced Lightning; Shielding Effect; Neutral Line
• ISSN: 1229-800X; 2586-7792

The electricity distribution system in Korea is adopting a multi-grounding system. Protection of this distribution system against lightning is performed by installing overhead ground wires over the high voltage wires, and connecting the overhead ground wires to the ground every 200 m. The ground resistance in this system is limited not to exceed $50\Omega$ and overhead ground wire and neutral wire are multiple parallel lines. Although overhead ground wire and neutral wire are installed in different locations on the same pole, this circuit configuration has duplicated functions of providing a return path for unbalanced currents and protecting the distribution system against induced lightning. Therefore, the purpose of this study is to analyze the induced lightning shielding effect according to the neutral wire installation structure of a 22.9kV distribution line in order to present a new 22.9kV distribution line structure model and characteristics. This study calculated induced lightning voltage by performing numerical analysis when an overhead ground wire is present in the multi-grounding type 22.9kV distribution line structure, and calculated the induced lightning shielding effect based on this calculated induced lightning voltage. In addition, this study proposed and analyzed an improved distribution line model allowing the use of both overhead wire and neutral wire to be installed in the current distribution lines. The result of MATLAB simulation using the conditions applied by Yokoyama showed almost no difference between the induced lightning voltage developed in the current line and that developed in the proposed line. This signifies that shielding the induced lightning voltage through overhead wire makes no difference between current and proposed distribution line structures. That is, this study found that the ground resistance of the overhead wire had an effect on the induced lightning voltage, and that the induced lightning shielding effect of overhead wire is small.