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电网技术 2015

邻近直流输电落点的城市电网谐波传导特性分析

DOI: 10.13335/j.1000-3673.pst.2015.10.048, PP. 3000-3004

陈甜甜,胡蓉,金祖洋,杨洪耕

Keywords: 谐波,等效注入,潮流谐波比,传导特性,感容耦合

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Abstract:

根据交直流互联电网出现的直流落点谐波从高电压级向低电压级的传导过程和低电压级非线性负荷谐波向高电压级的扩散过程的不同,提出了一种基于等效注入电流的城市电网谐波传导特性分析方法,将两种情况下的谐波电流在谐波国标框架下统一,得出一致行为评价。注意到城市电网电缆大量使用带来的高次谐波放大,提出潮流谐波比作为输送单位基波潮流的谐波含量评价指标,用以评价由电网参数变化以及电缆使用带来的谐波变化。应用所提方法计算了在某直流落点从500kV变电站到10kV母线谐波传导过程,并与实测数据相比较,揭示了谐波从高电压级向低电压级的传导规律和分析了城市电网电缆使用引起的谐波放大,验证了方法的有效性。

References

[1]	文康珍,黎文安．高压电力系统谐波渗透及谐波限制值的确定[J]．武汉理工大学学报：信息与管理工程版,2002,24(4)：131-134．
[2]	Wang T,Zhu Y,Xu Y,et al．Research on harmonic penetration between different voltage levels[C]//IEEE Asia Pacific Conference on Circuits and Systems(APCCAS 2008)．Macao,China：IEEE,2008：105-108．
[3]	李澍森,陈晓燕．500 kV和220 kV系统电压谐波水平之间的关系探讨[J]．电网技术,2002,26(6)：49-52．Li Shusen,Chen Xiaoyan．Relationship between harmonics voltage levels of 500 kV and 220 kV network[J]．Power System Technology,2002,26(6)：49-52(in Chinese)．
[4]	Li Shusen,Chen Xiaoyan．The study of 500 kV system harmonics in Central China power network[C]//8 th International Conference on Harmonics and Quality of Power(ICHQP 98),IEEE/PES and NTUA． Athens,Gerrce：IEEE,1998：814-819．
[5]	杨晓妮,韩民晓,严稳莉,等．高压交流系统谐波限值研究[J]．电气应用,2008,27(4)：75-78．Yang Xiaoni,Han Minxiao,Yan Wenli,et al．Study on limits of harmonics of the high voltage network[J]．Electrotechnical Application,2008,27(4)：75-78(in Chinese)．
[6]	周晋．谐波、负序在电网中透入机理的研究[D]．成都：西南交通大学,2009．
[7]	段晓波,朱明星,胡文平,等．影响电容式电压互感器谐波传递特性的关键参数[J]．电网技术,2014,38(11)：3153-3159．Duan Xiaobo,Zhu Mingxing,Hu Wenping,et al．Key parameters affecting harmonic transfer characteristics of capacitor voltage transformer[J]．Power System Technology,2014,38(11)：3153-3159(in Chinese)．
[8]	刘书铭,徐永海,朱永强,等．特高压线路参数对线路谐波传递系数的影响[J]．电网技术,2010,34(1)：11-14．Liu Shuming,Xu Yonghai,Zhu Yongqiang,et al．Impact of transmission line parameters on harmonic transmission coefficients in 1 000 kV AC power transmission system[J]．Power System Technology,2010,34(1)：11-14(in Chinese)．
[9]	刘书铭,郭光,施红,等．交流特高压线路的谐波传递特性[C]//第六届电能质量国际研讨会论文集．北京：全国电压电流等级和频率标准化技术委员会,2012：6．
[10]	何正友,胡海涛,方雷,等．高速铁路牵引供电系统谐波及其传输特性研究[J]．中国电机工程学报,2011,31(16)：55-62．He Zhengyou,Hu Haitao,Fang Lei,et al．Research on the harmonic in high-speed railway traction power supply system and its transmission characteristic[J]．Proceedings of the CSEE,2011,31(16)：55-62(in Chinese)．
[11]	Rahimi S,Wiechowski W,Ostergaard J,et al．Identification of problems when using long high voltage AC cable in transmission system II：resonance & harmonic resonance[C]//IEEE Transmission and Distribution Conference and Exposition．Chicago,Illinois,USA：IEEE/PES,2008：1-8．
[12]	Shuai Z,Liu D,Shen J,et al．Series and parallel resonance problem of wideband frequency harmonic and its elimination strategy[J]．IEEE Transactions on Power Electronics,2014,29(4)：1941-1952．
[13]	Huang Z,Xu W,Dinavahi V R．A practical harmonic resonance guideline for shunt capacitor applications[J]．IEEE Transactions on Power Delivery,2003,18(4)：1382-1387．
[14]	Zhang S,Jiang S,Lu X,et al．Resonance issues and damping techniques for grid-connected inverters with long transmission cable．IEEE Transactions on Power Electronics,2014,29(1)：110-120．
[15]	De Jesus-Chavez J,Ramirez A．Assessment of harmonic resonances in switched networks[J]．IEEE Transactions on Power Delivery,2011,26(3)：2058-2059．
[16]	Sun X,Zeng J,Chen Z．Site selection strategy of single-frequency tuned R-APF for background harmonic voltage damping in power systems[J]．IEEE Transactions on Power Electronics,2013,28(1)：135-143．
[17]	吴竞昌．供电系统谐波[M]．北京：中国电力出版社, 1998：121-137．
[18]	吴笃贵,徐政．电力变压器有源谐波模型[J]．电网技术,1999,23(3)：34-37．Wu Dugui,Xu Zheng．Active harmonic model of power transformer19 ．Power System Technology,1999,23(3)：34-37(in Chinese)．
[19]	杨志栋,李亚男,殷威杨,等．±800 kV向家坝—上海特高压直流输电工程谐波阻抗等值研究[J]．电网技术,2007,31(18)：1-4．Yang Zhidong,Li Yanan,Yin Weiyang,et al．Study on harmonic impedance equivalents used for AC filter design of ±800 kV UHVDC transmission project from Xiangjiaba to Shanghai[J]．Power System Technology,2007,31(18)：1-4 (in Chinese)．
[20]	吴笃贵,徐政．电力负荷的谐波建模[J]．电网技术,2004,28(3)：20-24．Wu Dugui,Xu Zheng．Harmonic modeling of electric loads[J]．Power System Technology,2004,28(3)：20-24 (in Chinese)．

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