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应用纵联差动保护防止雷击同塔双回线路同时跳闸停电 被引量:5

Applying Longitudinal Differential Protection Against Simultaneous Lightning Outage for Double-circuit Transmission Lines on Same Tower
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摘要 为防止雷击同塔双回线路导致双回路同时跳闸(同跳)停电事故的发生,研究了采用纵联差动保护的防同跳效果。首先归纳总结了雷击同塔双回线路同时跳闸特点及继电保护现状,分析了同塔双回线路相序布置、杆塔接地电阻、杆塔高度、档距和线路绝缘强度等因素对双回线路耐雷性能的影响。然后详细比较了各保护装置在雷击同塔双回线路典型闪络故障下的动作情况,并结合实际线路定量分析了采用纵联差动保护的防同跳效果。研究结果表明,线路的两相耐雷水平曲线和三相耐雷水平曲线之间存在一个较大的"跳跃间隔";同塔双回线路中采用纵联差动保护后在雷击导致三相闪络时才会导致一回线路停电,在四相闪络时才会导致双回线路同时停电,因此与采用纵联距离和纵联方向保护相比,纵联差动保护具有更好的防同跳效果。最后,从继电保护角度提出了同塔双回线路防同跳的一些措施和建议。 To prevent tripping accidents on doublecircuit transmission lines on the same tower (DCSTTL) caused by simultaneous lightning outage, we studied the effect of using longitudinal differential protection. Firstly, we sununarized the tripping characteristics and the actualities of relay application for DCSTTL, and analyzed the effects of some key fac tors, including phase sequence configuration, ground resistance, tower height, span of line and insulation level of tower, on lightning protection of transmission lines. Then, we compared the operations of different relay protection equipment on DCSTTL under typical lightning faults, and analyzed the effectiveness of using longitudinal differential protection to prevent simultaneous lightning outage for DCSTTL in quantity after considering practical line parameters. Results show that there is a large gap between the twophase level and the threephase lightning withstand level for DCSTTL. With longitudinal differential protection, a DCSTTL will only have power failure on a single circuit under threephase flashover, and only flashovers on four and more phases will cause doublecircuit line poweroff on the line. Therefore, compared with pilot distance relays and directional pilot relays, longitudinal differential protection performs better in preventing si multaneous lightning outage. We also proposed some other suggestions from the perspective of relay protection for protecting DCSTTL.
出处 《高电压技术》 EI CAS CSCD 北大核心 2014年第1期24-32,共9页 High Voltage Engineering
关键词 同塔双回 同时跳闸 纵联差动保护 耐雷水平 继电保护 雷击跳闸 double-circuit transmission lines on the same tower simultaneous lightning outage longitudinal differentialprotection lightning withstand level relay protection lightning outage
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  • 1张嘉旻,葛荣良.同塔多回输电技术特点及其应用分析[J].华东电力,2005,33(7):23-26. 被引量:67
  • 2潘靖,易辉,陈柏超.我国紧凑型与同塔双回输电现状与展望[J].高电压技术,2005,31(9):25-27. 被引量:32
  • 3DL/T620-1997交流电气装置的过电压保护和绝缘配合[S].北京:中国电力出版社,1997.
  • 4IEEE Working Group. Estimating lightning perform- ance of transmission lines updates to analytical models [R]. Geneva: IEEE Working Group, 1993.
  • 5DT/L804-2002交流电力系统金属氧化物避雷器使用导则[S].北京:中国电力出版社,2002.
  • 6IEEE Std C 62.22-1997 IEEE guide for the application of metal-oxide surge attesters for alternating current systems[S]. New York.. Institute of Electrical and Electrorics Eng~neais, 1997.
  • 7董晓辉,杜忠东,徐勇,余莉娜.直流接地极入地电流对交流变压器的影响[J].高电压技术,2007,33(12):134-138. 被引量:19
  • 8高压直流输电接地极设计的通用导则:IEC/PAS62344:2007[S],2007.
  • 9高压直流接地极技术导则:DL/T437-2000[S],2000.
  • 10中国南方电网有限责任公司.溪洛渡右岸电站送电广东±500kV同塔双回直流输电工程双回直流系统协调控制系统技术规范书[S],2012.

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