期刊文献+

适合于风力发电系统的电压跌落发生器 被引量:15

Development of voltage-dip generator for wind power system
下载PDF
导出
摘要 为满足在故障情况下的风力发电机控制策略的研究需要,给出了一种电压跌落发生器的拓扑结构,PC机与单片机通过串行通信来实现对电压跌落模式和跌落时间的控制。试验表明,该设备可以实现国外昂贵的电压跌落发生器的基本功能。 This article describes a circuit of voltage-dip generator for the research of wind turbine running under voltage-dip. The type and the time of voltage-dip were set hrough SCI, A PC communicated with a PIC. Experiment has proved that the equipment could realize the basic function of the expensive overseas equipment.
出处 《可再生能源》 CAS 2007年第3期64-67,共4页 Renewable Energy Resources
基金 国家"863"计划子项目(2003AA512022-2)
关键词 电压跌落 电压跌落发生器 变速恒频 风力发电 voltage dip voltage-dip generator variable speed cnnstant frequency(VSCF) wind power
  • 相关文献

参考文献8

  • 1贺益康,郑康,潘再平,刘其辉.交流励磁变速恒频风电系统运行研究[J].电力系统自动化,2004,18(13):55-59. 被引量:130
  • 2雷亚洲.与风电并网相关的研究课题[J].电力系统自动化,2003,27(8):84-89. 被引量:457
  • 3LEDESMA P,USAOLA J.Doubly fed induetion Generator model for transient stability analysis[J].IEEE Tran.on Energy Conversion,2005,20(2):388-397.
  • 4BING XIE,FOX B,FIYNN D.Study of fault ridethrough for DFIG based wind turbines[J].IEEE Tran.on Electric Utility Deregulation,2004,1:411-416.
  • 5MANGUEED F A,SANNINO A,SVENSSON J.Transient performance of voltage source converter under unbalanced voltage dips[J].PESC04,2004(2):1163-1168
  • 6J NIIRANEN.Voltage ride through of a doubly-fed generator equipped with an active Crowbar[C].EPE-PEMC2004,Riga.Latvia.2004.
  • 7BING XIE,FOX B,FLYNN D.Study of fault ridethrough for DFIG based wind turbines.[J].IEETran.on Electric Utility Deregulation,2004,1:411-416.
  • 8SUN T,CHEN Z,BLAABIERG F.Voltage recovery of grid-connected wind turbines with DFIG after a shortcircuit fault[J].PESC 04,2004,1(3):20-25.

二级参考文献46

  • 1许善椿,黄曦东.交流励磁双馈发电机的原理、能量关系和应用[J].哈尔滨电工学院学报,1995,18(1):24-33. 被引量:22
  • 2[1]Brown L. World Wind Generating Capacity Jumps 31 Percent in 2001. http://www.earth-policy.org
  • 3[2]Jenkins N. Embedded Generation (Part 2). Power Engineering Journal, 1996, 5: 233~239
  • 4[3]Feijoo A, Cidras J. Modeling of Wind Farms in the Load Flow Analysis. IEEE Trans on Power Systems, 2000, 15(1): 110~115
  • 5[4]Larsson A. Flicker Emission of Wind Turbines Caused by Switching Operation. IEEE Trans on Energy Conversion, 2002, 17(1): 119~123
  • 6[5]Larsson A. Flicker Emission of Wind Turbines During Continuous Operation. IEEE Trans on Energy Conversion, 2002, 17(1): 114~118
  • 7[6]IEC 1000-3-7. Assessment of Emission Limits for Fluctuating Loads in MV and HV Power Systems. 1996
  • 8[7]Bossanyi E, Saad-Saoud Z, Jenkins N. Prediction of Flicker Produced by Wind Turbines. Wind Energy, 1998, 1(1): 35~51
  • 9[8]Feijóo A, Cidrás J. Analysis of Mechanical Power Fluctuations in Asynchronous WECS. IEEE Trans on Energy Conversion, 1999, 14(3): 284~291
  • 10[9]Saad-Saoud Z, Jenkins N. Models for Predicting Flicker Induced by Large Wind Turbines. IEEE Trans on Energy Conversion, 1999, 14(3): 743~748

共引文献574

同被引文献97

引证文献15

二级引证文献190

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部