陈水明,何金良,吴维韩,等. 110 kV输电线路采用氧化锌避雷器提高耐雷水平的研究[J]. 中国电力,1998,31(11):12-15. CHEN Shuiming,HE Jinliang,WU Weihan,et al. Study on adopting ZnO arrestors to increase lightning withstand level of 110 kV transmission lines[J]. Electric Power,1998,31(11):12-15.
[4]
Hara T,Yamamoto O. Modeling of a transmission tower for lighting- surge analysis[J]. IEEE Proc- Cener Transm Distrib,1996,143(3):183-289.
[5]
林苗. 线路避雷器在防雷中的分流系数推导)[J]. 广西电力,2008(1):5-7. LIN Miao. The deduction of line surge arrester shunting coefficient at line lightning protection[J]. Guangxi Electric Power,2008(1):5-7.
[6]
李先彬,张惠忠,褚孝国,等. 输电线数字实时仿真模型简析[J]. 现代电力,1996,13(3):13-20. LI Xianbin,ZHANG Huizhong,CHU Xiaoguo,et al. Analysis of digital real-time simulation model of transmissionline[J]. Modern Electric Power,1996,13(3):13-20.
[7]
李信.高压输电线路氧化锌避雷器技术原理和应用方案的研究[D]. 北京:华北电力大学,2001.
[8]
DLT620-1997.交流电气装置的过电压保护和绝缘配合[S].
[9]
陈冬,刘建华,贾晨曦,等. 基于 EMTP-ATP 的耐雷水平研究[J]. 电瓷避雷器,2011(5):8-11. CHEN Dong,LIU Jianhua,JIA Chengxi,et al. Study on lightning withstand level based on AT-EMTP[J]. Insulators and Surge Arresters,2011(5):8-11.
[10]
何金良,何广昌,高玉明,等. 110 kV 及220 kV 复合绝缘外套化锌避雷器结构及性能[J]. 高电压技术,1995,21(3):68-71. HE Jinliang,HE Guangchang,GAO Yuming,et al. Structure and Properties of 110 and 220 kV Metal-Oxide surge arresters with polymer housing[J]. High Voltage Engineering,1995,21(3):68-71.
[11]
吴桂芳,陈巧勇,蓝磊,等. 110 kV 线路避雷器在输电线路防雷中的应用研究[J]. 电瓷避雷器,2002(2):40-43. WU Guifang,CHEN Qiaoyong,LAN Lei,et al. Analysis on application of 110 kV lightning arresters on transmission lines[J]. Insulators and Surge Arresters,2002(2):40-43.
[12]
王志斌. 基于EMTP-ATP的线路避雷器仿真研究[J]. 煤矿机电,2012(5):44-47. WANG Zhibin. Simulation study of lightning arrester based on EMTP-ATP[J]. Colliery Mechanical & Electrical Technology,2012(5):44-47.
