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750kV及特高压输电线路抑制潜供电弧的方法 被引量:33

Secondary arc extinction methods for 750 kV and UHV transmission lines
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摘要 为使单相自动重合闸在750kV及特高压输电线路瞬时性故障后可靠重合,必须限制潜供电流和恢复电压。基于一个750kV双端电源供电系统模型,对2种熄灭潜供电弧的方法──使用快速接地开关和并联电抗器中性点接小电抗,采用ATP仿真软件进行了潜供电流及恢复电压的计算,分析比较了2种方法的优缺点。依据仿真数据得出,并联电抗器中性点接小电抗的方法降低潜供电流及恢复电压的效果优于前者。同时针对特高压线路采用单相自动重合闸的优势,提出了并联电抗器中性点小电抗的正确取值范围,从而达到抑制谐振过电压、加速潜供电流熄灭,成功实现单相重合闸的目的。 In order to ensure the successful reelosure of single pole autoreclosor on 750 kV and ultra-high voltage transmission lines, the secondary arc current and recovery voltage must be limited to a certain value. For the two arc extinction schemes-using high speed grounding switch and using the neutral reactor compensation to shunt reactor, the computation of secondary arc current and recovery voltage was presented here, based on a ATP simulating model of 750 kV power system. A comparison analysis for two schemes was showed. Based on the calculation results, the latter is better than the former according to the depression effect to secondary arc current and recovery voltage. At the meantime, with a view to the predominance of single pole autoreclosure on ultra-high voltage transmission line, the value of the neutral reactor is also discussed to limit the resonant over-voltage, to accelerate the extinction of secondary arc, and to ensure the successful reclosure of single pole autoreclosor.
作者 王皓 李永丽 李斌
机构地区 天津大学电气与自动化工程学院
出处 《中国电力》 CSCD 北大核心 2005年第12期29-32,共4页 Electric Power
基金 国家自然科学基金资助项目(50477037)
关键词 特高压 并联电抗器 快速接地开关 潜供电流 中性点小电抗 ultra high-voltage shunt reactor high speed grounding switch secondary arc current neutral reactor
分类号 TM723 [电气工程—电力系统及自动化]
  • 相关文献

参考文献6

  • 1HASIBER R M, JEGATE A C, BRUNKER J, et al. The application of high-speed grounding switches for single-pole reclosing oil 500 kVpower system [J]. IEEE Transactions on Power Apparatus and System,1981, 100(4):1512-1515,.
  • 2ESZTERGALYOS J, ANDRICHAK J, COLWELL D H, et al. Single phrase tripping and auto reclosing of transmission lines [J]. IEEE Transaction on Power Delivery, 1992, 7 ( 1 ):182-192.
  • 3商立群,施围.快速接地开关熄灭同杆双回输电线路潜供电弧的研究[J].电工电能新技术,2005,24(2):5-7. 被引量:17
  • 4GODA Y, MATSUDA S, INABA T, et al. Forced extinction characteristics of secondary arc, on UHV (1 000 kV class) transmission lines[J ].IEEE Transaction on Power Delivery, 1993, 18 (3):1322-1330.
  • 5GODA Y, MATSUDA S, INABA T, et al, Insulation recovery characteristics after fault arc interruption on UHV ( 1 000 kV class) transmission lines [J ]. IEEE Transaction on Power Delivery, 1993, 8 (4):1907-1912.
  • 6蔡汉生,张丽泉.500kV线路并联电抗器过补偿运行时的计算与分析[J].中国电力,1996,29(3):38-42. 被引量:9

二级参考文献7

  • 1IEEE Committee Report.Single phase tripping and auto reclosing of transmission lines [J].IEEE Trans.on Power Delivery,1992,7(1): 182-192.
  • 2Atmuri S R,Thallam R S,Gerlach D W,et al.Neutral reactors on shunt compensated EHV lines [A].Proc.1994 IEEE Power Eng.Society Transmission and Distribution Conf.[C].Chicago,IL,USA,1994.121-128.
  • 3Y Goda,S Matsuda,T Inaba,et al.Forced extinction characteristics of secondary arc on UHV(1000kV class) transmission lines [J].IEEE Trans.on Power Delivery,1993,8(3): 1322-1330.
  • 4Gary C Thomann,Stephen R Lambert,Somkiet Phaloprakam.Non-optimum compensation schemes for single pole reclosing on EHV double circuit transmission lines [J].IEEE Trans.on Power Delivery,1993,8(2): 651-659.
  • 5谷定燮.我国特高压输电系统的过电压和绝缘配合[J].中国电力,1999,32(4):65-68. 被引量:24
  • 6商立群,施围.同杆双回输电线路的潜供电流与恢复电压[J].高电压技术,2003,29(10):22-23. 被引量:41
  • 7林军,温步瀛.同杆双回线故障的精确计算[J].电工电能新技术,2004,23(2):33-37. 被引量:10

共引文献24

同被引文献248

引证文献33

二级引证文献183

中国电力
2005年 第12期

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