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±1100kV特高压干式平波电抗器绝缘设计与试验分析

DOI: 10.13336/j.1003-6520.hve.2015.05.047, PP. 1760-1768

Keywords: ±,1,100,kV特高压,干式平波电抗器,绝缘设计,绝缘试验,雷电冲击,中频振荡

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Abstract:

±1100kV干式平波电抗器作为±1100kV特高压直流输电工程关键主设备之一,肩负着抑制谐波、限制故障电流等作用。在±800kV干式平波电抗器研制的基础上,根据±1100kV干式平波电抗器相关技术规范要求,对±1100kV干式平波电抗器的绝缘试验水平选取、绝缘设计、绝缘试验设置、试验方法、判断准则以及试验结果分析等方面进行研究。为验证平波电抗器的绝缘设计,对±1100kV干式平波电抗器进行了多次负极性全电压及截波雷电冲击绝缘试验和多次全电压中频振荡试验,±1100kV干式平波电抗器在1360kV雷电冲击电压和1050kV中频振荡试验过程中,试品内部无烟雾、无异常声响,匝间无放电,试品表面无沿面闪络现象,未出现畸变现象,试验波形稳定,满足绝缘设计和技术规范的要求。试验结果表明±1100kV特高压干式平波电抗器雷电冲击水平(1360kV)和中频振荡水平(1050kV)电压取值合理,绝缘设计可靠,满足雷电冲击和中频振荡设计要求,可为特高压干式平波电抗器的研发及设计提供参考依据。

 References

[1]  唐春辉,侯俊平. ±800 kV干式平波电抗器的国产化制造[J]. 高电压技术,2006,32(12):168-169. TANG Chunhui, HOU Junping. Domestic manufacture of ±800 kV dry-type smoothing reactor[J]. High Voltage Engineering, 2006, 32(12): 168-169.
[2]  陈水明,杨鹏程,耿屹楠,等. ±800 kV平波电抗器的雷电过电压耐受[J]. 清华大学学报:自然科学版,2010,50(1):23-26. CHEN Shuiming, YANG Pengcheng, GENG Yinan, et al . Lightning overvoltage withstand of a ±800 kV smoothing reactor[J]. Journal of Tsinghua University (Science and Technology), 2010, 50(1): 23-26.
[3]  国家电网公司网联直流工程公司. 准东送出±1 100 kV直流输电工程设备采购技术规范:干式平波电抗器技术规范[R]. 北京:国家电网公司网联直流工程公司,2014. State Grid Corporation of DC Engineering Network Alliance. Procurement specifications of equipment of ±1 100 kV DC transmission project from Zhundong region: technical specification of dry-type smoothing reactor[R]. Beijing, China: State Grid Corporation of DC Engineering Network Alliance, 2014.
[4]  李 扬. 一起±800 kV直流干式平波电抗器树枝状放电故障分析[J]. 电力建设,2012,33(9):87-90. LI Yang. Analysis of tree discharge fault of ±800 kV DC dry-type smoothing reactors[J]. Electric Power Construction, 2012, 33(9): 87-90.
[5]  吴玉坤,郭香福,姚斯立,等. 冲击电压在2台特高压直流平波电抗器之间的分布情况研究[J]. 电力设备,2007,8(3):20-23. WU Yukun, GUO Xiangfu, YAO Sili, et al . Study on distribution of impulse voltage between two UHVDC smoothing reactor[J]. Electrical Equipment, 2007, 8(3): 20-23.
[6]  陕华平,彭晓莺,吴巾克,等. 向家坝—上海±800 kV直流示范工程干式平波电抗器雷电冲击型式试验分析[J]. 电网技术,2010,34(5):12-15. SHAN Huaping, PENG Xiaoying, WU Jinke, et al. Analysis on lightning impulse type test for dry-type smoothing reactor of ±800 kV DC transmission demonstration project from Xiangjiaba to Shanghai[J]. Power System Technology, 2010, 34(5): 12-15.
[7]  廖敏夫,程 显,翟云飞. 干式空心电抗器脉冲振荡匝间绝缘检测系统的仿真与试验[J]. 高电压技术,2011,37(6):1343-1348. LIAO Minfu, CHENG Xian, ZHAI Yunfei. Simulation and experiment on impulse oscillating turn-to-turn insulation test system of dry-type air core reactor[J]. High Voltage Engineering, 2011, 37(6): 1343-1348.
[8]  徐林峰,林一峰,王永红,等. 空心电抗器匝间过电压试验用脉冲振荡电路[J]. 哈尔滨理工大学学报,2011,16(6):42-45. XU Linfeng, LIN Yifeng, WANG Yonghong, et al . Impulse oscillator circuit of turn-to-turn over-voltage test for air-core reactor[J]. Journal of Harbin University of Science and Technology, 2011, 16(6): 42-45.
[9]  张燕秉,郑 劲. ±800 kV干式平波电抗器的户内、外布置[J]. 高电压技术,2006,32(9):114-116. ZHANG Yanbing, ZHENG Jin. Feasibility study of indoor and outdoor arrangements of ±800 kV dry-type smoothing reactor[J]. High Voltage Engineering, 2006, 32(9): 114-116.
[10]  Sharp M R, Andrei R G, Werner J C. A novel air-core reactor design to limit the loading of a high voltage interconnection transformer bank[C]∥Power Engineering Society Summer Meeting. [S.l.]: IEEE, 2002: 494-499.
[11]  雷园园,赵现平. ±800 kV云广直流输电工程平波电抗器参数选择和布置方案[J]. 高压电器,2012,48(6):75-79. LEI Yuanyuan, ZHAO Xianping. Parameters selection and arrangement of smoothing reactors for ±800 kV Yunnan-Guangzhou UHVDC transmission project[J]. High Voltage Apparatus, 2012, 48(6): 75-79.
[12]  Cheng X X, Lü;
[13]  J Z, Gou R F, et al . Study for arrangement of the smoothing reactor in ±800 kV UHVDC project[C]∥International Conference on High Voltage Engineering and Application. Chongqing, China: IEEE, 2008: 371-374.
[14]  乐 波,张燕秉,郑 劲,等. ±800 kV直流干式平波电抗器的技术规范[J]. 高电压技术,2006,32(12):170-173. YUE Bo, ZHANG Yanbing, ZHENG Jin, et al . Study on the technical specification of ±800 kV UHVDC dry-type smoothing reactor[J]. High Voltage Engineering, 2006, 32(12): 170-173.
[15]  王清璞,李文平,孙优良,等. ±800 kV干式平波电抗器计算和场域分析[J]. 变压器,2007,44(5):1-5. WANG Qingpu, LI Wenping, SUN Youliang, et al . Calculation and field analysis of ±800 kV dry-type smoothing reactor[J]. Transformer, 2007, 44(5): 1-5.
[16]  彭宗仁,罗 兵,程建伟,等. ±800 kV斜撑式干式平波电抗器电场分布及均压结构研究[J]. 南方电网技术,2010,4(6):45-48. PENG Zongren, LUO Bing, CHENG Jianwei, et al . Research on the electric field distribution and voltage-sharing structure of ±800 kV oblique dry-type smoothing reactors[J]. Southern Power System Technology, 2010, 4(6): 45-48.
[17]  王建民,景崇友,武卫革,等. 特高压干式平波电抗器电流分布和漏磁场特性的数值分析[J]. 变压器,2010,47(8):20-23. WANG Jianmin, JING Chongyou, WU Weige, et al . Numerical analysis of current distribution and leakage magnetic field characteristics of EHV dry-type smoothing reactor[J]. Transformer, 2010, 47(8): 20-23.
[18]  Yu Q, Sebo S A. Accurate evaluation of the magnetic field strength of large substation air-core reactor coils[J]. IEEE Transactions on Power Delivery, 1998, 13(4): 1114-1119.
[19]  Chen F, Ma X K, Zhao Y Z, et al . Support vector machine approach for calculating the AC resistance of air-core reactor[J]. IEEE Transactions on Power Delivery, 2011, 26(4): 2407-2415.
[20]  Chen T T, Cao J F, Zhou G Y, et al. Electric field research of ±800 kV dry-type smoothing reactor[C]∥International Conference on Electrical Machines and Systems (ICEMS). Hangzhou, China: IEEE, 2014: 1484-1487.
[21]  郭香福,郝文光,章忠国,等. 特高压干式空心平波电抗器的耐热性能与温升限值[J]. 变压器,2009,46(4):47-51. GUO Xiangfu, HAO Wenguang, ZHANG Zhongguo, et al. Thermostability and temperature rise limit of UHV dry-type smoothing reactor with air-core[J]. Transformer, 2009, 46(4): 47-51.
[22]  Cao J F, Chen T T, Jiang Z P, et al . Coupling calculation of temperature field for dry-type smoothing reactor[C]∥International Conference on Electrical Machines and Systems (ICEMS). Hangzhou, China: IEEE, 2014: 3259-3263.
[23]  Do C B W, Lopes A, Filho J P. Improving the failure detection in the lightning impulse test of low inductance air core reactors[C]∥IEEE Conference Publication. London, the United Kingdom: IEEE, 1999: 217-221.
[24]  Feilat E A. Prony analysis technique for estimation of the mean curve of lightning impulses[J]. IEEE Transactions on Power Delivery, 2006, 21(4): 2088-2090.
[25]  王黎明,汪 创,傅观君,等. 特高压直流平波电抗器的复合支柱绝缘子抗震特性[J]. 高电压技术,2011,37(9):2081-2088. WANG Liming, WANG Chuang, FU Guanjun, et al . Antiseismic characteristics of composite post insulators for smoothing reactor on UHVDC[J]. High Voltage Engineering, 2011, 37(9): 2081-2088.
[26]  GB/T 25092—2010 高压直流输电用干式空心平波电抗器[S]. 北京:中国标准出版社,2010. GB/T 25092—2010 Dry-type air-core smoothing reactors for HVDC applications[S]. Beijing, China: China Standard Press, 2010.
[27]  GB 1094.3—2003 电力变压器 第3部分 绝缘水平、绝缘试验和外绝缘空气间隙[S]. 北京:中国标准出版社,2003. GB 1094.3—2003 Power transformers-part 3: insulation levels, dielectric tests and external clearances in air[S]. Beijing, China: China Standard Press, 2003.
[28]  IEC 60076—6 Power transformers-part 6: reactors[S]. Geneva, Switzerland: IEC, 2007.
[29]  IEEE Std 1277 IEEE trial-use standard general requirements and test code for dry-type and oil-immersed smoothing reactors for DC power transmission[S]. New York, USA: IEEE, 2000.

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