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分布式储能技术的探索与实践 被引量:4

Exploration and Practice of Distributed Energy Storage Technology
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摘要 文章阐述了分布式储能技术的重要意义,介绍了分布式储能技术在经济社会可持续发展重要领域——能源互联网发展中的重要地位,并对分布式储能的技术形态与载体进行了分析,最后以信息网络重要组成部分——数据中心为应用场景,对分布式储能技术的实践进行了探讨。 Distributed energy storage technology is the key to reform and development of the energy industry and to the promotion of the transformation of the energy structure. It is also the fundamental technology that enhances the performance of the grid as well as the development of smart grid, renewable energy access, and electric vehicles. It has played an important role in various technical fields related to power industry and has penetrated into the development of other areas of the industry. It has become an important support to other industries. This paper firstly expounded the significance of distributed energy storage technology based on the development of the industry and nation-building needs; then intro- duced the important position of the distributed energy storage technology in an important area of sustainable economic and social development - development of the energy Internet and analyzed distributed form of energy storage technologies; and finally discussed the practice of distributed energy storage technology in data center scenarios-an important part of information network .
作者 慈松 李宏佳
机构地区 中国科学院声学研究所高性能网络实验室 国防科学技术大学高性能计算国家重点实验室
出处 《国防科技》 2014年第3期6-9,共4页 National Defense Technology
基金 美国国家自然科学基金(NO.1145596 0830493) 国家自然科学基金(NO.61302108)
关键词 分布式储能 能源互联网 锂电池 数据中心 distributed energy storage energy Internet lithium batteries data center
分类号 TK02 [动力工程及工程热物理]
作者简介 慈松,男,研究员,博士生导师,中国科学院声学研究所,研究方向:复杂系统理论、分布式储能技术、信息通信技术. 李宏佳,男,助理研究员,中国科学院声学研究所.
  • 相关文献

参考文献13

  • 1Huse R A. Research and development: Breaking the crisis: Options cover primary energy resource recovery, fuel conditioning, conversion, improved transmission, and storage[J]. Spectrum, IEEE, 1974, 11(6): 40-47.
  • 2Boyd J. An internet-inspired electricity grid[J]. Spectrum, IEEE, 2013, 50(1): 12-14.
  • 3Huang A Q, Crow M L, Heydt G T, et al. The future renewable electric energy delivery and management (FREEDM) system: the energy internet [C]. Proceedings of the IEEE, 2011, 99(1): 133-148.
  • 4Rifkin J. The third industrial revolution[J]. Engi- neering & Technology, 2008, 3(7): 26-27.
  • 5Appelrath H J, Terzidis O, Weinhardt C. Internet of Energy [J]. Business & Information Systems Engineering, 2012, 4(1): 1-2.
  • 6Bui N, Castellani A P, Casari P, et al. The in- ternet of energy: a web-enabled smart grid system[J]. Net- work, IEEE, 2012, 26(4): 39-45.
  • 7Soh Y S, Quek T Q S, Kountouris M, et al. En- ergy efficient heterogeneous cellular networks [J]. Selected Areas in Communications, IEEE Journal on, 2013, 31(5): 840-850.
  • 8De Rijcke S, Ergun H, Van Hertem D, et al. Grid impact of voltage control and reactive power support by wind turbines equipped with direct-drive synchronous machines [J]. Sustainable Energy, IEEE Transactions on, 2012, 3(4): 890-898.
  • 9Berdichevsky G, Kehy K, Straubel J B, et al. The tesla roadster battery system [J]. Tesla Motors Inc, 2006: 1-5.
  • 10Schaltz E, Khaligh A, Rasmussen P O. Influ- ence of battery/ultracapacitor energy-storage sizing on bat- tery lifetime in a fuel cell hybrid electric vehicle [J]. Ve- hicular Technology, IEEE Transactions on, 2009, 58 (8): 3882-3891.

同被引文献27

  • 1Boyd J, An interaet-inspired electricity grid[J]. IEEE Spectrum, 2013, 50(1): 12-14.
  • 2Rifkin J. The third industrial revolution[J]. Journal of Engineering&Technolog, 2008, 3(7): 26-27.
  • 3Appelrath J, Terzidis O, Weinhardt C, Internet of energy[J]. Journal of Business & Information Systems Engineering, 2012, 4(1): 1-2.
  • 4Huang A, Crow L, Heydt T, et al. The future renewable electric energy delivery and management (FREED M)system: The Energy Internet[J]. Proceeding of the IEEE, 2011, 12(17): 133-148.
  • 5Lanzisera S, Weber R, Liao A, et al. Communicating power supplies: bringing the internet to the ubiquitous energy gateways of electronic devices[J]. IEEE Intemet of Things Journal, 2014, 1(2): 153-160.
  • 6Schaltz E, Khaligh A, Rasmussen O. Influence of battery/ultracapacitor energy-storage sizing on battery lifetime in a fuel cell hybrid electric vehicle[J]. IEEE Trans. on Vehicular Technology, 2009, 58(8): 3882-3891.
  • 7Xu Z, Guan X, Jia X, et al. Performance analysis and comparison on energy storage devices for smart building energy management[J]. IEEE Transactions on Smart Grid, 2012, 3(4): 2136-2147.
  • 8Berdichevsky G, Kelty K, Straubel B, et al. The tesla roadster battery system[J]. Journal of Tesla Motors Inc, 2007, 2(12): 1-5.
  • 9Szumanowski A, Chang Y. Battery management system based on battery nonlinear dynamics modeling[J]. 1EEE Trans. on Vehicular Technology, 2008, 57(3): 1425-1432.
  • 10Lawder T, Suthar B, Northrop C, et al. Battery Energy Storage System(BESS)and Battery Management System(BMS)for Grid-Scale Applications[J]. Proceedings ofthelEEE, 2014, 102(6): 1014-1030.

引证文献4

二级引证文献72

国防科技
2014年 第3期

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