变速恒频风电系统应对电网故障的保护电路分析被引量：25

Analysis on Protection Circuits suitable for VSCF-WECS to Cope with Grid Faults

下载PDF

导出

摘要新的电网规则要求风力发电系统具有低电压穿越能力,基于双馈感应发电机的双馈型风电系统和基于永磁同步发电机的直驱型系统作为主流变速恒频风能变换系统,增加保护电路后,可以极大地提高其故障穿越能力。基于国内外对变速恒频风电系统保护电路的分析和总结,对各种类型的保护电路进行了分类,对其工作原理和实现方法进行了详细说明,并讨论了各自的优缺点。增加保护电路可以使变速恒频风电系统在电网故障发生时,保持与电网的连接,当故障消除后,快速恢复正常运行,从而极大地提高风电系统的可用型、可靠性和市场竞争力。 The requirement is presented by new grid codes that wind energy conversion system （WECS） should have capability of low voltage ride through （LVRT）, by adding protection circuits, the fault ride through capability of mainstream variable-speed constant-frequency （VSCF） WECS which includes doubly-fed induction generator （DFIG） based doubly-fed system and permanent magnet synchronous generator （PMSG） based direct-drive system can be considerably increased. Based on the summary of protection circuits suitable for VSCF-WECS at home and abroad, the different types of protection circuits are classified, the working principle and realization are explained in detail, then the advantage and disadvantage of each method is discussed. Adding protection circuits can make the VSCF-WECS keep connected with grid during faults and recover normal operation fast after fault clearance, which will greatly improve the availability, reliability and market competition of WECS.

作者胡书举李建林许洪华

机构地区中国科学院电工研究所

出处《变流技术与电力牵引》 2008年第1期45-50,55,共7页 Converter Technology & Electric Traction

关键词变速恒频风能变换系统双馈感应发电机永磁同步发电机低电压穿越保护电路 variable-speed constant-frequency（VSCF） wind energy conversion system（WECS） doubly-fed induction generator（DFIG） permanent magnet synchronous generator（PMSG） low voltage ride-through（LVRT） protection circuits

分类号 TM713 [电气工程—电力系统及自动化] TU984.12 [建筑科学—城市规划与设计]

引文网络
相关文献

参考文献2

1李建林,赵栋利,李亚西,许洪华.适合于变速恒频双馈感应发电机的Crowbar对比分析[J].可再生能源,2006,24(5):57-60. 被引量：49
2王宾,潘贞存,徐丙垠.配电系统电压跌落问题的分析[J].电网技术,2004,28(2):56-59. 被引量：130

二级参考文献16

1ELTRA.Specifications for connecting wind farms to the transmission network[M].Danmish,2000. 被引量：1
2E ON NETA:Erganzede netzansschlussregeln fur windnergieanlagen[D].Technical report E.on Netz,2001. 被引量：1
3LEDESMA P,USAOLA J.Doubly fed induction generator model for transient stability analysis[J].IEEE Tran on Energy Conversion,2005,20 (2):388-397. 被引量：1
4BING XIE,FOX B,FLYNN D.Study of fault ridethrough for DFIG based wind turbines[J].IEEETran on Electric Utility Deregulation,2004 (1):411-416. 被引量：1
5MAGUEED F A,SANNINO A,Svensson J.Transient performance of voltage source converter under unbalanced voltage dips[J].PESC04,2004(2):1163-1168. 被引量：1
6SUN T,CHEN Z,BLAABJERG F.Voltage recovery of grid-connected wind turbines with DFIG after a shortcircuit fault[J].PESC 04,2004 (3):20-25. 被引量：1
7J NIIRANEN.Voltage ride through of a doubly-fed generator equipped with an active Crowbar[M].EPE-PEMC Riga Latvia,2004. 被引量：1
8MORREN J,DE HAAN S W H.Ridethrough of wind turbines with doubly-fed induction generator during a voltage dip[J].IEEE Transactions on ergy Conversion,2005,20(2):435-441. 被引量：1
9A PETERSSON,S LUNDBERG,T THIRINGER.A DFIG wind-turbine ride-through system influence on the energy production[A].Nordic wind power conference[C],2004. 被引量：1
10J NIIRANEN.Simulation of doubly fed induction generator wind turbine with an active Crowbar[A].European power electronic-PEMC 2004 (EPE-PEMC),11th international European power ELEctronic and motion control[C],2004. 被引量：1