|
|
电网技术 2007, 31(15) 1-7 DOI:
ISSN: 1000-3673 CN: 11-2410/TM |
|
|
|
|
本期目录 |
下期目录 |
过刊浏览 |
高级检索
[打印本页]
[关闭] |
|
| 论文 |
|
|
特高压直流单12脉动阀组的投退策略及其对交流系统无功冲击的影响 |
|
|
张 民1,石 岩1,孙 哲2 |
|
|
1.国网直流工程建设有限公司,北京市 东城区 100005;2.华北电力大学 工商管理学院,北京市 昌平区 102206 |
|
|
摘要:
随着向家坝—上海±800 kV特高压直流输电工程的逐渐开展,研究了±800 kV特高压直流系统单12脉动阀组的投退策略,并比较了采取2种不同的策略投退单12脉动阀组时对交流系统的无功冲击。EMTDC仿真分析结果证实了这2种策略均能完成单12脉动阀组的正常投退,但不同的策略对交流系统的无功冲击不同,单12脉动阀组投退过程中直流电流保持4 000 A不变的策略对交流系统的无功冲击较高,另外一种先降低电流指令、投退单12脉动阀组,再恢复电流指令的策略对交流系统的无功冲击较低。 |
|
|
关键词:
特高压直流输电
单12脉动阀组
投退策略
无功冲击
|
|
|
Influence of Blocking and Deblocking Strategies of Single 12-Pulse Converter Group for UHVDC Power Transmission on Reactive Power Impact to AC Power Grid |
|
|
ZHANG Min1,SHI Yan1,SUN Zhe2 |
|
|
1.State Grid DC Project Construction Company Limited,Dongcheng District,Beijing 100005,China;2. School of Business and Administration,North China Electric Power University,Changping District,Beijing 102206,China |
|
|
Abstract:
Based on gradual progress of ±800kV UHVDC project from Xiangjiaba to Shanghai, the blocking and deblocking strategy of single 12-pulse converter group of this project are researched and the reactive power impact on UHVAC power grid caused by two different blocking and deblocking strategies is researched. Simulation results by EMTDC confirm that the two strategies can perform normal blocking and deblocking of single 12-pulse converter group, but different strategy causes different reactive power impact on UHVAC power grid. The strategy, in which the DC current is hold in the level of 4000A during the blocking and deblocking process, causes stronger impact on UHVAC power grid; and the other one, in which firstly the current reference is decreased, then the blocking and deblocking of single 12-pulse converter group is performed, finally the current reference is restored, causes lower reactive power impact on UHVAC power grid. |
|
|
Keywords:
UHVDC power transmission
single 12-pulse converter group
deblocking and blocking strategy
reactive power impact
|
|
|
收稿日期 1900-01-01 修回日期 1900-01-01 网络版发布日期 |
|
|
DOI: |
|
|
基金项目:
|
|
|
通讯作者: |
|
|
作者简介: |
|
作者Email: |
|
|
| 参考文献: |
| [1] 刘振亚.特高压电网[M].北京:中国经济出版社,2005.
[2] 刘振亚.特高压直流输电技术研究成果专辑(2005年)[M].北京:中国电力出版社,2005.
[3] 常浩,樊纪超.特高压直流输电系统成套设计及其国产化[J].电网技术,2006,30(16):1-5.
Chang Hao,Fan Jichao.System design and its localization of UHVDC transmission project[J].Power System Technology,2006,30(16):1-5(in Chinese).
[4] 舒印彪,刘泽洪,高理迎,等.±800kV 6400MW 特高压直流输电工程设计[J].电网技术,2006,30(1):1-8.
Shu Yinbiao,Liu Zehong,Gao Liying,et al.A preliminary exploration for design of ±800kV UHVDC project with transmission capacity of 6400MW[J].Power System Technology,2006,30(1):1-8(in Chinese).
[5] 舒印彪,刘泽洪,袁骏,等.2005年国家电网公司特高压输电论证工作综述[J].电网技术,2006,30(5):1-12.
Shu Yinbiao,Liu Zehong,Yuan Jun,et al.A survey on demonstration of UHV power transmission by State Grid Corporation of China in the year of 2005[J].Power System Technology,2006,30(5):1-12(in Chinese).
[6] 袁清云.特高压直流输电技术现状及在我国的应用前景[J].电网技术,2005,29(14):1-3.
Yuan Qingyun.Present state and application prospect of ultra HVDC transmission in China[J].Power System Technology,2005,29(14):1-3(in Chinese).
[7] 张运洲.对我国特高压输电规划中几个问题的探讨[J].电网技术,2005,29(19):T11-T14.
[8] 舒印彪.中国直流输电的现状及展望[J].高电压技术,2004,30(11):1-2,20.
Shu Yinbiao.Present status and prospect of HVDC transmission in China[J].High Voltage Engineering,2004,30(11):1-2, 20(in Chinese).
[9] 浙江大学直流输电科研组.直流输电[M].北京:水利电力出版社,1982.
[10] 赵婉君.高压直流输电工程技术[M].北京:中国电力出版社,2004.
[11] 马为民.±800kV特高压直流系统换流器控制[J].高电压技术,2006,32(9):71-74.
Ma Weimin.Converter control in ±800kV DC transmission system [J].High Voltage Engineering,2006,32(9):71-74(in Chinese).
[12] 陶瑜,马为民.特高压直流输电系统的控制特性[J].电网技术,2006,30(22):1-4.
Tao Yu,Ma Weimin.Control characteristics of UHVDC power transmission system[J].Power System Technology,2006,30(22):1-4(in Chinese).
[13] 石岩,韩伟,张民,等.特高压直流输电工程控制保护系统的初步方案[J].电网技术,2007,31(2):11-15.
Shi Yan,Han Wei,Zhang Min,et al.A preliminary scheme for control and protection system of UHVDC project[J].Power System Technology,2007,31(2):11-15(in Chinese).
[14] 李峰,李兴源.特高压直流输电相关问题的综述[J].四川电力技术,2006,29(6):13-19.
|
| 本刊中的类似文章 |
| 1.孙景强|郭小江|张健|陈志刚|卜广全|陈家荣 .多馈入直流输电系统受端电网动态特性[J]. 电网技术, 2009,33(4): 57-60 |
| 2.陈汉雄|胡劲松 .金沙江一期送端特高压直流输电系统协调控制[J]. 电网技术, 2008,32(8): 10-14 |
| 3.呙 虎|朱艺颖|杨 铭 .多个特高压直流系统送端共用接地极的内过电压研究[J]. 电网技术, 2008,32(10): 5-10 |
| 4.马玉龙|陶 瑜|周 静|郎鹏越|曹 镇.基于实时数字仿真器的特高压直流换流单元投退特性分析[J]. 电网技术, 2007,31(21): 5-10 |
| 5.石 岩|韩 伟|张 民|王 庆.特高压直流输电工程控制保护系统的初步方案[J]. 电网技术, 2007,31(2): 11-15 |
| 6.刘国友|黄建伟|舒丽辉|李世平|邹冰艳|王大江.6英寸高压晶闸管的研制[J]. 电网技术, 2007,31(2): 90- |
| 7.李新年|蒋卫平|李 涛|曾昭华|吴娅妮 .交流线路对平行架设特高压直流线路的影响及限制措施[J]. 电网技术, 2008,32(11): 1-6 |
| 8.崔明德|刘连光|孙中明.溪洛渡和向家坝特高压直流输电换流站接地极型式的研究[J]. 电网技术, 2007,31(10): 17-21 |
| 9.王 毅|孙成秋|汤 涛|郎需军|罗栋梁.不同运行方式下特高压直流输电线路的地面电场与离子流分布[J]. 电网技术, 2008,32(2): 29-33 |
| 10.郭贤珊 马为民 .向家坝-上海±800kV特高压直流示范工程直流低频谐振的研究[J]. 电网技术, 2008,32(10): 1-4 |
| 11.周 静|马为民|石 岩|韩 伟.±800 kV直流输电系统的可靠性及其提高措施[J]. 电网技术, 2007,31(3): 7-12 |
| 12.黄道春|魏远航|钟连宏|阮江军|皇甫成.我国发展特高压直流输电中一些问题的探讨[J]. 电网技术, 2007,31(8): 6-12 |
| 13.郑 劲|张小武|孙中明|李书芳.特高压直流输电工程的谐波限制标准及滤波器的设计[J]. 电网技术, 2007,31(13): 1-6 |
| 14.李立浧|司马文霞|杨 庆|冯 杰.云广±800 kV特高压直流输电线路耐雷性能研究[J]. 电网技术, 2007,31(8): 1-5 |
| 15.胡铭 金小明 高鹏1 田杰 吴小辰.云广特高压直流输电系统孤岛运行的稳定控制措施[J]. 电网技术, 2009,33(18): 5-8 |
|
| Copyright by 电网技术 |
