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Modeling of Nonlinear Elements During Lightning Overvoltage Simulations 被引量:3

Modeling of Nonlinear Elements During Lightning Overvoltage Simulations
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摘要 The paper presents some problems of lightning overvoltage modeling in transmission lines with nonlinear elements.The presented results were obtained mostly for fast front transients of subsequent lightning return stroke currents.The effectiveness of numerical algorithms of nonlinear models and possibilities of their development for such transients are analyzed.Computer simulations carried out by application of EMTP show that nonlinear models of back-flashover and ZnO arresters work properly,while the implemented corona model can not be used for relatively large peak values of subsequent lightning return-stroke currents. The paper presents some problems of lightning overvoltage modeling in transmission lines with nonlinear elements.The presented results were obtained mostly for fast front transients of subsequent lightning return stroke currents.The effectiveness of numerical algorithms of nonlinear models and possibilities of their development for such transients are analyzed.Computer simulations carried out by application of EMTP show that nonlinear models of back-flashover and ZnO arresters work properly,while the implemented corona model can not be used for relatively large peak values of subsequent lightning return-stroke currents.
出处 《高电压技术》 EI CAS CSCD 北大核心 2008年第12期2595-2601,共7页 High Voltage Engineering
关键词 雷电过电压 仿真 非线性无件 模型 lightning overvoltages transmission lines mathematical models nonlinear phenomena computer simulations
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参考文献32

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  • 2Metwally I A, Heidler F H. Improvement of the lightning shielding performance of overhead transmission lines by passive shield wires[J]. IEEE Transactions on Electromagnetic Compatibility, 2003, 45(2) : 378-392.
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同被引文献41

  • 1李明贵,鲁铁成.高压架空输电线路雷击过电压的仿真计算与分析研究之一:输电线路雷电过电压仿真计算模型的建立[J].广西电力,2005,28(4):7-10. 被引量:46
  • 2戴玲,刘俭,林福昌,李化.考虑先导发展随机性的输电线路雷击仿真模型[J].高电压技术,2007,33(7):36-39. 被引量:8
  • 3Metwally I A, Heidler F H. Improvement of the lightning shielding performance of overhead transmission lines by passive slaield wires[J]. IEEE Transactions on Elec- tromagnetic Compatibility, 2003, 45(2): 378-392.
  • 4Nowak W. Identification of overvoltage risks of high voltage electrical power systems owing to lightning discharges[C]//Disertations and Monographs of Academy of Mining and Metallurgy. Cracow, Poland: [s.n,], 2005:1-172.
  • 5Takami J, Okabe S, Zaima E. Study of lightning surge overvoltages at substations due to direct lightning strokes to phase conductors[J]. IEEE Transactions on Power Delivery, 2010, 25(1): 425-433.
  • 6Takami J, Okabe S, Zaima E. Lightning surge overvoltages at substations due to backflashover with assumed lightning current waveforms based on observations[J]. IEEE Transactions on Power Delivery, 2010, 25(4): 2958-2969.
  • 7Ametani A. Lightning surge analysis by EMTP and numerical electromagnetie analysis method[C]//Proceedings of 30th International Conference on Lightning Protection. Cagliari, Italy: [s.n.], 2010.
  • 8Dudurych I M, Gallagher T J, Corbett J, et al. EMTP analysis of the lightning performance ofa HV transmission line[J]. IEE Proceedings on Generation, Trans- mission and Distribution, 2003, 150(4): 501-506.
  • 9Martinez J A, Castro-Aranda E Lightning performance analysis of overhead transmission lines using the EMTP[J]. 1EEE Transactions on Power Delivery, 2005 20(3): 2200-2210.
  • 10Thang T H, Baba Y, Naganka N, et al. FDTD computation of lightning surges on overhead wires in the presence of corona discharge[C]//Proceedings of 7th Asia-Pacific International Conference on Lightning. Chengdu, China: [s.n.], 2011.

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