基于双馈风机的次同步阻尼控制器设计
杨烨,江晓燕
(南京理工大学 自动化学院,江苏 南京 210094)
摘 要:针对双馈风机串补并网系统的次同步振荡现象以及现有的次同步振荡抑制措施由于缺乏对振荡机理的研究而物理意义不明确等问题,在PSCAD/EMTDC 软件中搭建双馈风机串补并网系统的模型,分析次同步振荡的机理,并基于次同步振荡的机理分别在转子侧和定子侧设计一种新的附加阻尼控制器,通过带通滤波、带阻滤波以及移相环节,以达到抑制次同步振荡的效果。仿真结果表明:两种附加阻尼控制器在不同的运行工况下都能使系统快速稳定,并且转子侧附加阻尼控制器的性能略优于网侧的附加阻尼控制器。
关键词:次同步振荡;附加阻尼控制器;双馈风机;转子侧变流器;定子侧变流器
中图分类号:TM614 文献标识码:A 文章编号:1007-3175(2018)10-0005-05
Design of Subsynchronous Damping Controller Based on Doubly Fed Introduction Generator
YANG Ye, JIANG Xiao-yan
(School of Automation, Nanjing University of Science and Technology, Nanjing 210094, China)
Abstract: In order to solve the problem that the subsynchronous oscillation and the existing subsynchronous oscillation suppression measures for doubly fed induction generator(DFIG)series compensation system are not clear in physical meaning due to the lack of research on the mechanism of oscillation, this paper set up a model of such system in PSCAD/EMTDC and analyzed the mechanism of subsynchronous oscillation, based on which a new additional damping controller, including bandpass filter, band stop filter and phase shift links, was designed at the rotor side and the stator side respectively, so as to suppress subsynchronous oscillation.The simulation results show that the two additional damping controllers can make the system fast and stable under different operating conditions,and the performance of the additional damping controller at the rotor side is slightly better than the additional damping controller at the grid side.
Key words: subsynchronous oscillation; additional damping controller; doubly fed induction generator; rotor side converter; stator side converter
参考文献
[1] 王亮,谢小荣,姜齐荣,等. 大规模双馈风电场次同步谐振的分析与抑制[J]. 电力系统自动化,2014,38(22):26-31.
[2] LAWRENCE C G, JR P E.Sub-synchronous grid conditions: new event, new problem, and new solutions[C]//Western Protective Relay Conference,2010.
[3] ADAMS J, CARTER C, SHUN H H.ERCOT experience with sub-synchronous control interaction and proposed remediation[C]//IEEE PES Transmission and Distribution Conference and Exposition (T&D),2012:1-5.
[4] SURIYAARACHCHI D H R, ANNAKKAGE U D, KARAWITA C, et al.A procedure to study subsynchronous interactions in wind integrated power systems[J]. IEEE Transactions on P o w e r Systems,2012,28(1):377-384.
[5] LIU Huakun, XIE Xiaorong, LI Yu.A smallsignal impedance method for analyzing the SSR of series-compensated DFIG-based wind farms[C]//IEEE Power & Energy Society General Meeting,2015.
[6] HUANG P H, EL MOURSI M S, XIAO W, et al. Subsynchronous resonance mitigation for series-compensated DFIG-based wind farm by using two-degree-of-freedom control strategy[J]. IEEE Transactions on Power Systems,2014,30(3):1442-1454.
[7] LEON A, SOLSONA J A. Subsynchronous interaction damping control for DFIG wind turbines[J].IEEE Transactions on Power Systems,2014,30(1):1-10.
[8] 董晓亮,田旭,张勇,等. 沽源风电场串补输电系统次同步谐振典型事件及影响因素分析[J]. 高电压技术,2017,43(1):321-328.
[9] 栗然,卢云,刘会兰,等. 双馈风电场经串补并网引起同步振荡机理分析[J]. 电网技术,2013,37(1):3073-3079.
[10] 徐政,罗惠群,祝瑞金. 电力系统次同步振荡问题的分析方法概述[J]. 电网技术,1999,23(6):36-39.
