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可变速抽水蓄能发电技术应用与进展 被引量:39

Progress in the Power Generation Technology with Variable Speed Pump Storage and Its Applications
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摘要 可变速抽水蓄能可成为电网负荷频率控制、平衡可再生能源发电出力波动的有效手段。论文在介绍可变速抽水蓄能整体结构的基础上,重点介绍了交交方式和交直交方式变频励磁单元的拓扑和构成。说明了交交方式具有器件少、可靠性高、易于大容量化等优点,但存在频率只能整数倍减小、无法实现大范围连续调节、响应速度较慢等缺点。而交直交方式具有频率可大范围连续调节、响应速度较快等特点,其性价比呈快速上升趋势。分析了机组在发电方式和电动方式时运行的变速原理和调节过程。通过发电出力与转速的关系曲线说明通过转速控制实现最佳出力的过程。通过泵类负荷输入功率与转速的关系,描述了电动方式下调节转速对电网功率调节的作用。综合考虑能量平衡、波动负荷与可再生能源发电出力跟踪控制及电压稳定控制的需求,形成参考功率。在此基础上,采用d-q解耦方法实现可变速机组有功与无功功率的控制。最后,通过电网功率调节、电压波动控制及风电功率波动抑制示例,阐述了可变速机组对电网运行的控制作用。 Variable speed pump storage is very likely become the effective measure for the control of power grid load frequency and for balancing fluctuation caused by renewable energy resources. Based on the principle introduction of variable frequency pump storage, the topology and configuration of frequency conversion and field excitation unit of typical converters used for variable speed pump storage are mainly described. Analysis indicates that the AC-AC cycle-converter has few devices and high reliability, however with limited range of frequency change and low response speed. Meanwhile the AC-DC-AC converter possesses the large range of frequency adjustment and high response speed, its cost performance rapidly raising, and would become the leading topology in the future development. The speed change principle and adjustment process are analyzed for the generator set operating in both generator mode and pump mode. Based on the characteristic curve of electric output power and rotating speed in generator mode, the optimum output power is able to be achieved by speed control. According to the relationship between the input power and speed in pump mode, the power extracting from electric grid is able to be controlled through speed control. The reference power could be calculated by combining the energy balance with fluctuating load, tracing power output generated by renewable energy resources, and the voltage stability control. By adopting a d-q decoupling strategy, the control of active power and reactive power for variable speed unit is able to be realized. Finally, by taking electric fence power adjustment, voltage fluctuation control, and wind generation power balance as example, the control function of variable speed unit to electric fence operation is addressed.
出处 《科技导报》 CAS CSCD 北大核心 2013年第16期69-75,共7页 Science & Technology Review
基金 新能源电力系统国家重点实验室自主研究课题资助项目
关键词 储能 抽水蓄能 可变速 换流器 频率控制 电压控制 energy storage pump storage variable speed converter frequency control voltage control
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参考文献30

  • 1Dell R M, Rand D A J. Energy storage-a key technology for global energy sustainability[J]. Journal of Power Sources, 2001, 100(1-2): 2-17.
  • 2Cheng Shijie, Li Gang, Sun Haishun, et al. Power System and Clean Energy, 2009, 25(2): 1-8.
  • 3Zhang Wenliang, Qiu Ming, Lai Xiaokang. Power System Technology, 2008, 32(7): 1-9.
  • 4Shimada R, Mukai K. Load-leveling and electric energy storage [J]. IEEE Transactions on Electrical and Electronic Engineering, 2007(2): 33-38.
  • 5Faias S, Sousa J, Castro R. Contribution of energy storage systems for power generation and demand balancing with increasing integration of renewable sources: Application to the Portuguese power system [C]// Proceedings of the 12th European Conference on Power Electronics and Applications, Aalborg, Denmark, Sept 2-5, 2007. Institution of Electrical Engineers, Eurooean Power Electronics Association. 2007:1-10.
  • 6Haisheng Chen,Thang Ngoc Cong,Wei Yang,Chunqing Tan,Yongliang Li,Yulong Ding.Progress in electrical energy storage system:A critical review[J].Progress in Natural Science:Materials International,2009,19(3):291-312. 被引量:235
  • 7Abmed Faheem Zobaa. Energy storage-technologies and applications [M]. Croatia: InTech, 2013.
  • 8Ibrahim H I, Perron A. Energy storage systems--Characteristics and comparisons[J]. Renewable and Sustainable Energy Reviews, 2008, 12(5): 1221-1250.
  • 9Kondoh J, Ishii I, Yamaguchi H, et al. Electrical energy storage systems for energy networks [J]. Energy Conversion and Management, 2000, 41 (17): 1863-1874.
  • 10Mei Zuyan. Pump storage power generation technology [M]. Beijing: China Machine Press, 2000.

二级参考文献86

  • 1Knowlen C,Matick AT,Bruckner AP.High efficiency energy conversion systems for liquid nitrogen automobiles.SAE paper 1998;No 981898.
  • 2ECOSTAR:European concentrated solar thermal road-mapping,Deliverable No.7,Roadmap Document,Nov.2004,Available online:http://www.vgb.org/data.o/vgborg_/Forschung/road-map252.pdf[2007-03-20]. Receiveddate:04/15/2008 Modifieddate:07/02/2008 Published:03/10/2009
  • 3Mclarnon FR,Cairns EJ.Energy storage.Ann Rev Energy 1989;14:241-71.
  • 4Baker JN,Collinson A.Electrical energy storage at the turn of the millennium.Power Eng J 1999;6:107-12.
  • 5Dti Report.Status of electrical energy storage systems.DG/DTI/00050/00/00,URN NUMBER 04/1878,UK Department of Trade and Industry;2004,p.1-24.
  • 6Australian Greenhouse Office.Advanced electricity storage technol-ogies programme.ISBN:1 921120 37 1,Australian Greenhouse Office;2005,p.1-35.
  • 7Walawalkar R,Apt J,Mancini R.Economics of electric energy storage for energy arbitrage and regulation.Energy Policy 2007;5:2558-68.
  • 8Dti Report.Review of electrical energy storage technologies and systems and of their potential for the UK.DG/DTI/00055/00/00,URN NUMBER 04/1876,UK Department of Trade and Industry;2004,p.1-34.
  • 9Dobie WC.Electrical energy storage.Power Eng J 1998;12:177-81.
  • 10Koot M,Kessels J,Jager B,et al.Energy management strategies for vehicular electric power systems.IEEE T Veh Technol 2005;54:771-82.

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