Temperature Rise Characteristics of 500kV Arrester under the Action of Multiple Return-Strokes with Long Continuous Current
Li Peng1,2, Xiao Pan1,2, Qu Yingying1,2, Wang Yu3,4,5, Pu Ziheng1,2, Wu Tian1,2
1. College of Electrical Engineering and New Energy China Three Gorges University Yichang 443002 China; 2. Hubei Provincial Engineering Technology Research Center for Power Transmission Line China Three Gorges University Yichang 443002 China; 3. NARI Group Corporation (State Grid Electric Power Research Institute) Nanjing 211106 China; 4. Wuhan NARI Limited Company State Grid Electric Power Research Institute Wuhan 430074 China; 5. Hubei Key Laboratory of Power Grid Lightning Risk Prevention Wuhan 430074 China
Abstract:For the problem of metal oxide arrester (MOA) failure under the action of multiple return-strokes with long continuous current, based on the field-circuit coupling calculation method, the effects of long continuous current, amplitude of return-strokes, number of return-strokes and the interval time of multiple return-strokes on the temperature rise characteristics of the MOA are studied when the lightning strikes the 500kV DC transmission lines. The temperature rise of MOA under the action of multiple return-strokes with long continuous current is analyzed after considering the thermal accumulation effect and surface flashover. The results show that the long continuous current and the interval time of multiple return-strokes have little effect on the temperature rise of MOA, and the maximum temperature rise of MOA can reach 150.7℃ under the action of 10 return-strokes. After the thermal accumulation effect is considered, the maximum temperature rise increases by about 6.6℃. In the process of multiple return-strokes, when the single section surface flashover fault of the MOA occurs, the continuous current will make the fault arc unable to extinguish, which will cause the MOA temperature to rise rapidly and the thermal collapse is more likely to occur.
黎鹏, 肖盼, 屈莹莹, 王宇, 普子恒, 吴田. 带长连续电流多重回击作用下500kV避雷器温升特性分析[J]. 电工技术学报, 2020, 35(zk2): 603-611.
Li Peng, Xiao Pan, Qu Yingying, Wang Yu, Pu Ziheng, Wu Tian. Temperature Rise Characteristics of 500kV Arrester under the Action of Multiple Return-Strokes with Long Continuous Current. Transactions of China Electrotechnical Society, 2020, 35(zk2): 603-611.
[1] 李鹏飞, 张春龙, 吕东波, 等. 多脉冲雷电冲击下金属氧化物的破坏形式[J]. 高电压技术, 2017, 43(11): 3792-3799. Li Pengfei, Zhang Chunlong, Lü Dongbo, et al.Failure modes of metal oxide arrestor under the multi-pulse lightning surges[J]. High Voltage Engineering, 2017, 43(11): 3792-3799. [2] 曾金全, 朱彪, 曾颖婷, 等. 福建省多回击闪电特征参数的统计分析[J]. 暴雨灾害, 2017, 36(6): 573-578. Zeng Jinquan, Zhu Biao, Zeng Yingting, et al.Statistical analysis of characteristic parameters for multi-return stroke of cloud-to-ground lightning in Fujian[J]. Torrential rain and Disasters, 2017, 36(6): 573-578. [3] 李特, 姜文东, 王少华, 等. ±800kV宾金线浙江段线路走廊雷电地闪多重回击特征分析[J]. 电瓷避雷器, 2018(3): 12-18. Li Te, Jiang Wendong, Wang Shaohua, et al.Analysis on lightning cloud-to-ground discharge multiple return stroke characteristics of ±800kV Binjin line corridor in Zhejiang province[J]. Insulators and Surge Arresters, 2018(3): 12-18. [4] Tsuboi T, Takami J, Okabe S, et al.Energy absorption capacity of a 500kV surge arrester for direct and multiple lightning strokes[J]. IEEE Transactions on Dielectrics and Electrical Insulation, 2015, 22(2): 916-924. [5] 廖民传, 蔡汉生, 吴小可, 等. 多重雷击对线路避雷器的冲击影响研究[J]. 电瓷避雷器, 2019(3): 153-158. Liao Minchuan, Cai Hansheng, Wu Xiaoke, et al.Study on impact of multiple lightning strikes on transmission line arrester[J]. Insulators and Surge Arresters, 2019(3): 153-158. [6] 吴德贯, 周禹, 余忠田, 等. 一起500kV金属氧化物避雷器故障分析[J]. 电瓷避雷器, 2013(3): 58-60, 65. Wu Deguan, Zhou Yu, Yu Zhongtian, et al.A fault analysis of 500kV metal oxide surge arrester[J]. Insulators and Surge Arresters, 2013(3): 58-60, 65. [7] Shindo T, Uman M A.Continuing current in negative cloud-to-ground lightning[J]. Journal of Geophysical Research Atmospheres, 1989, 94(D4): 5189-5198. [8] 汤霖, 王瑞发, 赵冬一. 架空配电线路雷电过电压特性与MOA试验技术的研究进展[J]. 电瓷避雷器, 2017(5): 118-127. Tang Lin, Wang Ruifa, Zhao Dongyi.Research progress of lightning overvoltage characteristics and MOA test technology on overhead line of power distribution[J]. Insulators and Surge Arresters, 2017(5): 118-127. [9] Campos L Z S, Saba M M F, Pinto Jr O, et al. Waveshapes of continuing currents and properties of M-components in natural positive cloud-to-ground lightning[J]. Atmospheric Research, 2009, 91(2-4): 416-424. [10] 何雨微, 司文荣, 魏本刚, 等. 考虑吸收能量估算的金属氧化物避雷器模型准确性分析[J]. 中国电机工程学报, 2017, 37(10): 3019-3027. He Yuwei, Si Wenrong, Wei Bengang, et al.Accuracy analysis of metal-oxide arrester simulation models considering the energy absorption estimation under impulse currents with different steepness[J]. Proceedings of the CSEE, 2017, 37(10): 3019-3027. [11] 张子建, 董毅, 张天, 等. 金属氧化物避雷器结构参数对雷电防护影响的有限元分析[J]. 电瓷避雷器, 2018(2): 68-72. Zhang Zijian, Dong Yi, Zhang Tian, et al.Analysis on influence of metal oxide surge arrester structure parameters on lightning protection based on finite element method[J]. Insulators and Surge Arresters, 2018(2): 68-72. [12] Haryono T, Sirait K T, Tumiran, et al. Effect of multiple lightning strikes on the performance of ZnO lightning arrester block[J]. High Voltage Engineering, 2011, 37(11): 2763-2771. [13] Jiang Anfeng, Fu Zhengcai, Sun Wei, et al.Experimental and analytical investigation of the effects of single and multiple simulated lightning impulse currents on metal-oxide arrester blocks[J]. Electric Power Systems Research, 2016, 139: 146-152. [14] 徐伟, 盛沨, 张春龙, 等. 多脉冲雷电冲击下ZnO压敏电阻的劣化性能[J]. 高电压技术, 2019, 45(12): 3785-3793. Xu Wei, Sheng Feng, Zhang Chunlong, et al.Degradation performance of ZnO varistor under multi-pulse lightning impulse[J]. High Voltage Engineering, 2019, 45(12): 3785-3793. [15] 龚敏, 何智强, 饶玉凡, 等. 基于雷电冲击特性的带间隙氧化锌避雷器在线监测方法[J]. 电瓷避雷器, 2018(5): 121-125. Gong Min, He Zhiqiang, Rao Yufan, et al.On line monitoring method of zinc oxide surge arrester with gap based on lightning impulse characteristic[J]. Insulators and Surge Arresters, 2018(5): 121-125. [16] 韩聪颖. 特高压交流输电线路防雷技术研究[D]. 北京: 中国地质大学, 2017. [17] 崔涛. 输电线路防雷计算中绝缘子串闪络判据研究[D]. 武汉: 华中科技大学, 2009. [18] Q/GDW 11007—2013 ±500kV直流输电线路用复合外套带串联间隙金属氧化物避雷器技术规范[S]/GDW 11007—2013 ±500kV直流输电线路用复合外套带串联间隙金属氧化物避雷器技术规范[S]. 北京: 中国电力出版社, 2013. [19] Gu Shanqiang, Wan Shuai, Wang Jian, et al.Development and application of ±500 kV DC transmission line arrester in China power grid[J]. IEEE Transactions on Power Delivery, 2018, 33(1): 209-217. [20] 桑建平, 吴亮, 刘云蔚, 等. 复合外套无间隙金属氧化物避雷器热特性试验研究[J].电瓷避雷器, 2015(3): 62-68, 73. Sang Jianping, Wu Liang, Liu Yunwei, et al.Study on the thermal characteristic of polymeric housed MOA without gap[J]. Insulators and Surge Arresters, 2015(3): 62-68, 73. [21] Fan Xiangpeng, Zhang Guangshu, Wang Yanhui, et al.Analyzing the transmission structures of long continuing current processes from negative round flashes on the Qinghai-Tibetan Plateau[J]. Journal of Geophysical Research: Atmospheres, 2014, 119(5): 2050-2063. [22] Ferro M A, Saba M M F, Pinto Jr O. Continuing current in multiple channel cloud-to-ground lightning[J]. Atmospheric Research, 2009, 91(2-4): 399-403. [23] IEC 62305—1 Protection against lightning[S]. Intern-ational Electrotechnical Commission, 2010. [24] 桑建平. 避雷器热等价性及复合外套避雷器稳态热特性初探[J]. 电瓷避雷器, 2013(2): 53-58. Sang Jianping.Study on thermal equivalency of arrester and the steady-state thermal behaviors of polymeric housing arrester[J]. Insulators and Surge Arresters, 2013(2): 53-58. [25] Darveniza M, Saka T K.Surface flashovers on metal oxide varistor blocks[C]//1998 IEEE International Conference on Conduction and Breakdown in Solid Dielectrics, Vasteras, 1998: 406-409. [26] 黎鹏, 肖盼, 谌洪, 等. 地闪长连续电流对500kV直流输电线路故障重启动特性的影响[J/OL]. 电网技术, http://doi.org/: 10.13335/j.1000-3673.pst.2019. 2618. Li Peng, Xiao Pan, Shen Hong, et al.Influence of cloud-to-ground lightning with long continuous current on the fault restart characteristic of 500kV DC transmission line[J]. Power System Technology, http://doi.org/10.13335/j.1000-3673.pst.2019.2618.
2020, Vol. 35 
