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电网技术 ›› 2006, Vol. 30 ›› Issue (4): 11-15 .

• 电力系统 • 上一篇    下一篇

220kV成碧线可控串补晶闸管阀电气设计及仿真

蓝元良,汤广福,武守远,荆 平,印永华   

  1. 中国电力科学研究院,北京市 海淀区 100085
  • 出版日期:2006-02-20 发布日期:2006-02-20
  • 通讯作者: 蓝元良
  • 基金资助:
    国家电网公司资助项目(kj00-01-04)。

Electrical Design and Simulation of Thyristor Valves for Thyristor Controlled Series Compensation of 220kV Chengbi Transmission Line

LAN Yuan-liang,TANG Guang-fu,WU Shou-yuan,JING Ping,YIN Yong-hua   

  1. China Electric Power Research Institute,Haidian District,Beijing 100085,China
  • Online:2006-02-20 Published:2006-02-20
  • Supported by:

    Project Supported by State Grid Corporation of China(kj00-01-04).

摘要: 介绍了220kV成碧输电线路可控串联补偿器晶闸管阀的研制过程。首先针对晶闸管阀的运行工况建立相应的仿真模型,通过仿真分析得出晶闸管阀的电气强度。再根据晶闸管阀的电气强度要求选择合适的晶闸管及其辅助元件参数以及阀串联数,并从电气和热学两方面对晶闸管阀进行校核和优化设计。最后介绍了晶闸管阀投入试运行前的出厂以及现场试验等。该晶闸管阀投入实际运行表明了其设计的合理性,为以后可控串补阀的设计提供了可供借鉴的经验。

关键词: 灵活交流输电系统, 可控串补, 晶闸管阀, 电力电子技术

Abstract: The development process of thyristor valve for TCSC of the 220kV Chengbi transmission line is described. The electric design of the valve involves following procedures: firstly the simulation model for EMTDC that is corresponding to the operating condition of thyristor valve is built up and the current and voltage stresses of the thyristor valves are obtained by the simulations; then on the basis of obtained stresses the suitable thyristor, the parameters of its auxiliary elements and the series number of the valve are chosen, and in the respects of both electrical and thermal performances the design of thyristor valve is verified and optimized; finally the routine test and on-site test of the thyristor valve before its commissioning are presented. The practical application results show that the design of thyristor valve is rational and can be available for reference to the design of the valves for TCSC in future.

Key words: Flexible AC transmission systems, Thyristor controlled series compensator, Thyristor valve, Power electronics

[1] Jalali S G,Lasseter R H,Dobson I.Dynamic response of a thyristor controlled switched capacitor[J].IEEE Trans on Power Systems,1994,9(3):1609-1615. [2] Perkins B K,Iravani M R.Dynamic modeling of a TCSC with application to SSR analysis[J].IEEE Trans on Power Systems,1997,12(3):1619-1625. [3] Fan L,Feliachi,Ali,et al.Selection and design of a TCSC control signal in damping power system inter-area oscillations for multi operating conditions[J].Electric Power Systems Research,2002,62(2):127-137. [4] 武守远,李亚健,周孝信,等.用TNA模拟试验研究可控串补控制器[J].中国电机工程学报,2000,20(5):47-50. Wu Shouyuan,Li Yajian,Zhou Xiaoxin,et al.Controller design for TCSC simulation[J].Proceedings of the CSEE,2000,20(5):47-50. [5] 周孝信,李亚健,武守远,等.可控串补晶闸管触发控制的电容电压增量控制算法[J].中国电机工程学报,2001,21(5):1-4. Zhou Xiaoxin,Li Yajian,Wu Shouyuan,et al.Capacitor voltage increment control of TCSC triggering algorithms[J].Proceedings of the CSEE,2001,21(5):1-4. [6] 李亚健,周孝信,武守远,等.以可控串补抑制次同步谐振的物理模拟试验研究[J].中国电机工程学报,2001,21(6):1-4. Li Yajian,Zhou Xiaoxin,Wu Shouyuan,et al.SSR mitigation test study of TCSC on analog simulator[J].Proceedings of the CSEE,2001,21(6):1-4. [7] 阎冬,赵建国,武守远.考虑电抗器支路电阻影响时的TCSC稳定运行区域内的双解现象[J].中国电机工程学报,2004,24(5):67-72. Yan Dong,Zhao Jianguo,Wu Shouyuan.Dual solutions phenomenon of TCSC in steady operation area considering resistance influence of reactor branch[J].Proceedings of the CSEE,2004,24(5):67-72. [8] 徐桂芝,武守远,王宇红,等.用TCSC装置抑制电力系统低频 振荡的研究[J].电网技术,2004,28(15):44-47. Xu Guizhi,Wu Shouyuan,Wang Yuhong,et al.Damping low frequency oscillation in power system by TCSC[J].Power System Technology,2004,28(15):44-47. [9] 张东霞,童陆园,尹忠东,等.描述可控串补装置暂态特性的数学模型[J].中国电机工程学报,1999,19(5):30-34. Zhang Dongxia,Tong Luyuan,Yin Zhongdong,et al.Analytical mathematical model for describing the dynamic behavior of the thyristor controlled series compensator[J].Proceedings of the CSEE,1999,19(5):30-34. [10] 张慧媛,姜建国,冯宇.可控串补装置的动态建模及数字仿真研究[J].中国电机工程学报,2003,23(5):14-18. Zhang Huiyuan,Jiang Jianguo,Feng Yu.Dynamic modeling and digital simulation of TCSC[J].Proceedings of the CSEE,2003,23(5):14-18. [11] 郭剑波,武守远,李国富,等.甘肃成碧220kV可控串补国产化示范工程研究[J].电网技术,2005,29(19):12-17. Guo Jianbo,Wu Shouyuan,Li Guofu,et al.Study on domestic-manufactured demo project of 220kV TCSC for power transmission from Cheng county to Bikou in Gansu province[J].Power System Technology,2005,29(19):12-17. [12] 荆平,武守远,邱宇峰,等.220kV成碧可控串补装置的保护配置[J].电网技术,2005,29(21):5-9. Jing Ping,Wu Shouyuan,Qiu Yufeng,et al.Protection configuration for thyristor controlled series compensation device in 220kV power transmission line from Cheng county to Bikou [J].Power System Technology,2005,29(21):5-9. [13] ABB. The datasheet of 5STP26N6500[EB/OL] .http://search.abb. com/library/ABBLibrary. asp?DocumentID=5SYA1001-03&Language Code=en&DocumentPartID=&Action=Launch. [14] Jurg W,Bjorn B.Design of RC snubbers for phase control applications[EB/OL].http://library.abb.com/GLOBAL/SCOT/scot256.nsf/VerityDisplay/0040489C5516CD86C1256B990045BDCF/$File/prodinfo.pdf. [15] 杨世铭,陶文铨.传热学[M].北京:高等教育出版社,1998. [16] Bagnoli P E.Thermal resistance analysis by induced transient (TRAIT) method for power electronic devices thermal characterization—Part I: fundamentals and theory[J].IEEE Trans on Power Electronics,1998,13(6):1208-1219. [17] Bagnoli P E.Thermal resistance analysis by induced transient (TRAIT) method for power electronic devices thermal characterization—Part II:practice and experiments[J].IEEE Trans on Power Electronics,1998,13(6):1220-1228. [18] IEC61954,Power electronics for electrical transmission and distribution systems—testing of thyristor valves for static var compensators[S]. [19] IEC 60700-1,Thyristor valves for high-voltage direct current (HVDC) power transmission—Part 1:electrical testing[S].
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