渝鄂背靠背柔性直流附加阻尼控制策略研究

徐友平; 张 珂; 潘晓杰; 奚江惠; 邵德军; 唐卫华; 孙海顺

引用本文:	徐友平,张珂,潘晓杰,等.渝鄂背靠背柔性直流附加阻尼控制策略研究[J].电力系统保护与控制,2016,44(18):163-169.[点击复制]
	XU Youping,ZHANG Ke,PAN Xiaojie,et al.Damping control based on back to back VSC-HVDC connecting Chongqing and Hubei Power Grid[J].Power System Protection and Control,2016,44(18):163-169[点击复制]

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渝鄂背靠背柔性直流附加阻尼控制策略研究
徐友平,张珂,潘晓杰,奚江惠,邵德军,唐卫华,孙海顺
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(国家电网公司华中分部，湖北武汉430077;强电磁工程与新技术国家重点实验室华中科技大学，湖北武汉430074;中国能源建设集团湖南省电力设计院有限公司，湖南长沙410007)

摘要:

针对渝鄂异步互联北通道及三峡近区大机组与常规直流和柔性直流强耦合动态问题，建立了包含三峡左一电厂、渝鄂背靠背柔性直流以及龙政直流外送通道的简化等值系统及其详细电磁暂态数学模型。仿真研究了暂态扰动下换流站近区机组的动态稳定特性。提出采用柔性直流有功无功解耦控制回路附加阻尼控制的方法平抑扰动后机组持续缓慢衰减的功率振荡问题，分别设计了基于有功调制和无功调制的阻尼控制控制器，比较研究了两者的作用效果。研究表明，采用有功和无功协同调制的阻尼控制策略可同时快速平抑功率振荡和电压波动，提高系统的动态稳定性，可为工程应用提供参考。

关键词: 柔性直流输电异步互联功率振荡 PQ解耦控制阻尼控制器

DOI：10.7667/PSPC160619

投稿时间：2016-04-29修订日期：2016-08-04

基金项目:

Damping control based on back to back VSC-HVDC connecting Chongqing and Hubei Power Grid

XU Youping,ZHANG Ke,PAN Xiaojie,XI Jianghui,SHAO Dejun,TANG Weihua,SUN Haishun

(Central China Branch of State Grid Corporation of China, Wuhan 430077, China;State Key Laboratory of Advanced
Electromagnetic Engineering and Technology, Huazhong University of Science and Technology, Wuhan 430074, China
;Hunan Electric Power Design Institute Corporation Ltd., China Energy Engineering Group, Changsha 410007, China)

Abstract:

With the scheduled back to back VSC-HVDC based unsynchronized interconnection between Chongqing and Hubei power grid, the dynamic of such hybrid AC-DC power system consist of large capacity hydro-generator units and both LCC and VSC based HVDC is of serious concern. An equivalent system and the detailed time domain model are established including Three Gorge Power Plant No. 1 located at left bank, the back to back VSC-HVDC and the Long-Zheng LCC-HVDC. Transient simulation is undertaken which demonstrates post fault power oscillation of the hydro-generator units with poor damping. It is proposed that damping controllers can be added to either the activeor reactive control loop of VSC-HVDC to improve the damping of the power oscillation. These two ways of damping control design are studied and validated. Results show that combination of both design, i.e., damping controls based on active control and reactive control, could fast decrease power oscillation as well as stabilize voltage variation.

Key words: VSC-HVDC unsynchronized interconnection power oscillation PQ decoupled control damping controller

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