哈密至郑州特高压直流对受端电网影响分析

doi:10.11930/j.issn.1004-9649.2012.11.47.4

摘要/Abstract

摘要： 哈密至郑州±800 kV特高压直流是我国第1条风火打捆外送的直流工程,也是华中电网受入的第1条大容量直流线路,其建设对华中电网调峰以及安全稳定有较大影响。提出了大容量直流对受端电网的要求,通过分析分区电力平衡及电网结构,论证了哈密受端换流站应落点郑州东部;电力系统运行模拟计算表明华中电网自身调峰能力是可以满足直流送入需要的;电网稳定仿真计算表明华北至华中交流断面是受端电网的薄弱环节,需要加强该断面输电能力或者降低断面输送容量以保证电网安全稳定运行。

关键词: 特高压, 疆电外送, 风火打捆, 调峰分析

Abstract: The UHVDC project from Hami to Zhengzhou is China′s first dedicated DC Project for wind power and thermal power transmission, and the first large capacity project transmitting power to Central China power grid. Its construction will significantly affect the peak-regulation ability, security and stability of the receiving-end grid. The requirements of large capacity DC transmission for the receiving-end gird are proposed. The receiving-end location of Hami-Zhengzhou project is verified through regional electricity balance calculation and grid structure analysis, which is selected in the east of Zhengzhou City. Power system operation simulation proves that the peak-regulation ability of Central China grid can meet the requirements of the DC transmission. But the simulation calculation for grid security and stability indicates that the AC interconnection lines between North China grid and Central China grid are weak. Therefore the AC interconnection section needs to be strengthened or the section′s transmission capacity needs to be lowered for security and stability of the power grid.

Key words: UHV, out transmission of Xinjiang power, wind power and thermal power transmission, peak-regulation analysis

中图分类号:

TM721.1

钟胜,郭相国,田昕,李泰军. 哈密至郑州特高压直流对受端电网影响分析[J]. 中国电力, 2012, 45(11): 47-51.

ZHONG Sheng, GUO Xiang-guo, TIAN Xin, LI Tai-jun. Influences of the UHVDC Project from Hami to Zhengzhou on Central China Power Grid[J]. Electric Power, 2012, 45(11): 47-51.

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https://www.electricpower.com.cn/CN/Y2012/V45/I11/47

参考文献

[1] 裴哲义,董存,辛耀中.我国风电并网运行最新进展[J].中国电力,2010,43（11）:78-82.
PEI Zhe-yi, DONG Cun, XIN Yao-zhong. Review of operation and management of integrating wind power in China[J]. Electric Power,2010,43(11):78-82.
[2] 白兴忠,江国琪,王建学,等. 风电接入对西北电网辅助服务的影响[J].中国电力,2009,42（12）:73-76.
BAI Xing-zhong, JIANG Guo-qi, WANG Jian-xue, et al . Influences of wind power connecting on ancillary services of Northwest China Grid[J]. Electric Power, 2009,42(12):73-76.
[3] 郭小江,王毅,申洪,等. ±800 kV特高压直流增容电网适应性研究[J].中国电力,2009,42（12）:33-37.
GUO Xiao-jiang, WANG Yi, SHEN Hong, et al . Power grid adaptability study on increasing ±800 kV UHVDC transmission capacity[J].Electric Power,2009,42(12):33-37.
[4] 李晓黎,陈祖胜.特高压直流输电技术发展综述[J].广西电力,2009（1）：23-26.
LI Xiao-li, CHEN Zu-sheng. Summary of ultrahigh voltage direct current transmission technology[J]. Guangxi Electric Power, 2009(1): 23-26.
[5] 袁清云.我国特高压直流输电发展规划与研究成果[J].电力设备,2007,8（3）：1-4.
YUAN Qing-yun. Development planning and research accomplish- ments of UHVDC power transmission in China[J]. Electrical Equipment, 2007,8(3): 1-4.
[6] 河南省“十二五”能源发展规划[R].郑州：河南省发展和改革委员会,2012.
[7] 河南电网“十二五”主网架规划设计[R].郑州：河南省电力公司,2010.
[8] 刘振亚,舒印彪,张文亮,等. 直流输电系统电压等级序列研究[J].中国电机工程学报,2008,28（10）:1-8.
LIU Zhen-ya, SHU Yin-biao, ZHANG Wen-liang, et al . Study on voltage class series for HVDC transmission system[J]. Proceedings of the CSEE,2008,28(10):1-8.
[9] 张运洲,韩丰,赵彪,等. 直流电压等级序列的经济比较[J].电网技术,2008,32（9）:37-41.
ZHANG Yun-zhou, HAN Feng, ZHAO Biao, et al . Economic comparison of HVDC voltage class sequence[J]. Power System Technology, 2008,32(9):37-41.
[10] 哈密—河南（郑州）±800kV特高压直流输电工程可行性研究[R].武汉：中南电力设计院,2011.
[11] 哈密风电基地输电系统规划设计[R].北京：国网北京经济技术研究院,2010.
[12] 张宁,周天睿,段长刚,等.大规模风电场接入对电力系统调峰的影响[J].电网技术,2010,34（1）:152-158.
ZHANG Ning, ZHOU Tian-rui, DUAN Chang-gang, et al . Impact of large-scale wind farm connecting with power grid on peak load regulation demand[J]. Power System Technology,2010,34(1):152-158.
[13] 胡剑琛,刘燕华,李献,等. 风电并网后电网调峰措施的经济性分析[J].现代电力,2012,29（1）:86-89.
HU Jian-chen, LIU Yan-hua, LI Xian, et al . Economic analysis on peak load reglation measure with integration of wind farms [J].Modern Electric Power,2012,29(1):86-89.
[14] 张谦,李琥,高松.风电对调峰的影响及其合理利用模式研究[J].南方电网技术,2010,4（6）:18-22.
ZHANG Qian, LI Hu, GAO Song.Research on the impact of wind power on peak load regulation and its rational utilization mode [J]. Southern Power System Technology, 2010,4(6):18-22.
[15] 国家电网总体规划设计[R].北京：国家电网公司,2010.
[16] 荆勇,侯卫东,黄蔚亮.南方电网西电东送交直流混合输电系统安全稳定性分析[J].中国电力,2004,37（3）:10-13.
JING Yong, HOU Wei-dong, HUANG Wei-liang. Security and stability analysis of AC/DC hybrid transmission system form west to east in China southern power grid[J]. Electric Power, 2004, 37(3):10-13.
[17] 赵强,许婧,王琦,等.宁东直流山东侧电网稳定控制措施研究[J].中国电力,2012,45（4）:5-9.
ZHAO Qiang, XU Jing, WANG Qi, et al . Research on power grid stability control strategies for Ningdong DC line on Shandong side[J].Electric Power,2012,45(4):5-9.
[18] 中华人民共和国国务院.电力安全事故应急处置和调查处理条例[S].2011.