期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

基于PLECS的直驱永磁风电系统直接功率控制研究 被引量:4

Direct Power Control of Direct-driven Wind Energy Conversion System Based on PLECS
原文传递
导出
摘要 在研究风力机特性和永磁同步发电机运行机理的基础上,建立了直驱式永磁风力发电系统数学模型,在实现最大风能捕获的同时,分析了负载变化对发电机侧电能转换单元控制参数的影响。对于网侧逆变器控制,采用基于直轴虚拟电网磁链定向的直接功率控制,避免了对电网电压的检测和电流闭环控制,有效简化了系统结构,提高了工作可靠性。通过在Matlab/Simulink环境下嵌入PLECS工具箱进行仿真研究,结果表明该系统具有较好的控制鲁棒性和低电压穿越能力,进一步验证了基于PLECS工具箱进行风电系统建模与仿真的可行性。 Based on the mechanism of wind turbine and characteristics of permanent magnet synchronous generator (PMSG), the mathematic models of direct-driven wind power generation system with PMSG were established. The relations between booster chopper modulation and load impedance variation were analyzed so as to estimate the optimal rotor speed of the wind turbine and implement the maximum power point tracking (MPPT). A virtual grid flux based direct power control (DPC) with space vector modulation for grid-connected converter was proposed. The active and reactive powers were used as the control variables instead of the currents applied in conventional voltage oriented control method. Moreover, grid voltage sensors were replaced by a virtual flux (VF) estimator. The complete model of the wind energy conversion system was established through the Matlab/Simulink PLECS Toolbox. The digital simulation results confirm that the low voltage ride through capability and control robustness, evaluating the feasibility of PLECS in modeling and simulation of wind energy conversion system.
作者 包广清 毛开富
机构地区 兰州理工大学电气工程与自动化学院
出处 《系统仿真学报》 CAS CSCD 北大核心 2012年第8期1728-1732,共5页 Journal of System Simulation
基金 国家自然科学基金(50877034)
关键词 风电系统建模 最大功率追踪 虚拟磁链定向 直接功率控制 仿真 wind energy conversion system modeling maximum power point tracking virtual flux oriented direct power control simulation
分类号 TP391.9 [自动化与计算机技术—计算机应用技术]
  • 相关文献

参考文献10

  • 1H Polinder, F F A van der Pijl, G J de Vilder, P Tavne. Comparison of direct-drive and geared generator concepts for wind turbines [C]// Proc IEEE Int. Conf. Electric Machines and Drives, San Antonio, USA. USA: IEEE, 2005: 543-550.
  • 2Bouscayrol A, Delarue P, Guillaud X. Power strategies for maximum control slructure of a wind energy conversion system with a synchronous machine [J]. Renewable Energy (S0960-1481), 2005, 30(15): 2273-2288.
  • 3胡书举,赵栋利,李建林,许洪华.基于永磁同步发电机的直驱风电双脉宽调制变流器的研制[J].动力工程,2009,29(2):195-200. 被引量:10
  • 4刘其辉,贺益康,赵仁德.变速恒频风力发电系统最大风能追踪控制[J].电力系统自动化,2003,27(20):62-67. 被引量:336
  • 5T Noguchi, H Tomiki, S Kondo, I Takahashi. Direct Power Control of PWM Converter without Power-Source Voltage Selisors [J]. IEEE Trans. Ind. Application (S0093-9994), 1998, 34(3): 1473-479.
  • 6M Malinowiski. Sensorless Control Strategies for Three-Phase PWM Rectifiers [D]. Warsaw, Poland: Warsaw University of Technology, 2001.
  • 7Martti Harmoinen, Vesa Manninen, Pasi Pohjalainen, et al. Method for controlling the power to be transferred via a mains inverter [P]. USA Patent, No. 5940286, 1999.
  • 8Peter Vas. Sensorless Vector and Direct Torque Control (ISBN 0-19-856465-1) [M]. UK: Oxford University Press, 1998.
  • 9J Allmeling, W Hammer. PLECS 3.0.6 User Manual [DB/OL] (2010). http://www.plexim.com/downloads.
  • 10国家电网公司风电场接入电网规定(修订版)[S].2009.

二级参考文献16

  • 1谭林森,刘厚森,李如珍,肖运福.变速恒频双馈发电机矢量控制策略及特性分析[J].华中理工大学学报,1996,24(9):87-90. 被引量:13
  • 2荆龙,汪至中,于冰.四象限变流器在变速恒频风力发电系统中的应用[J].太阳能学报,2007,28(5):549-553. 被引量:7
  • 3CARRASCO J M, FRANQUELO L G, BIALASIEWICZ J T, et al. Power-electronic systems for the grid integration of renewable energy sources: a survey[J]. IEEE Transactions on Industrial Electronics, 2006, 53(4): 1002-1016.
  • 4POLINDER H, VANDERPIJL FFA, DEVILDER G J, et al. Comparison of direct-drive and geared generator concepts for wind turbines[J]. IEEE Transactions on Energy Conversion, 2006, 21(3) : 725-733.
  • 5PIERIK J T G, MORREN J, WIGGELINKHUIZEN E J, et al. Electrical and control aspects of off- shore wind farms II (Erao II) volume 2: offshore wind farm case studies [ R]. Petten, Netherlands:ECN, 2004: 78-79.
  • 6KAI Pietilaainen. Voltage sag ride-through of AC drives: control and analysis [D]. Stockholm, Sweden: Electrical Machines and Power Electronics Department of Electrical Systems Royal Institute of Technology, 2005.
  • 7CHINCHILLA M, ARNALTES S, BURGOS J C. Control of permanent-magnet generators applied to variable-speed wind-energy systems connected to the grid [J]. IEEE Transactions on Energy Conversion, 2006, 21(1): 130-135.
  • 8STRACHAN NICHOLAS P W, JOVCIC Dragan. Dynamic modeling, simulation and analysis of an off- shore variable-speed directly-driven permanent-magnet wind energy conversion and storage system (WECSS) [C]//OCEANS 2007-Europe. Aberdeen, Scotland : OES/IEEE, 2007 : 1-6.
  • 9Ion Boldea, Lucian Tutelea, Ioan Serban. Variable Speed Electric Generators and Their Control.. An Emerging Technology. Journal of Electrical Engineering, 2002, 3 :20-28.
  • 10Tang Y, Xu L. A Flexible Active and Reactive Power Control Strategy for a Variable Speed Constant Frequency Generating System. IEEE Trans on Power Electronics, 1996, 10(4) :472-478.

共引文献343

同被引文献32

引证文献4

二级引证文献25

系统仿真学报
2012年 第8期

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