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飞轮储能系统研究综述 被引量:18

Summarization of Research on Flywheel Energy Storage System
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摘要 飞轮储能系统 (FESS)又称飞轮电池或机电电池 ,由于它与化学电池相比所具有的巨大优势和未来市场的巨大潜力 ,引起了人们的密切关注 它结合了当今最新的磁悬浮技术、高速电机技术、电力电子技术和新材料技术 ,使得飞轮储存的能量有了质的飞跃 ,再加上真空技术的应用 ,使得各种损耗也非常小 针对该领域近年来的研究成果 。 The flywheel energy storage system (FESS) is also called the flywheel battery or electro mechanical battery. Owing to its great advantage in comparison with the chemical battery and its vast potential in the future markets, interest in it is rekindled. It integrates the newest magnetic suspension technology, high speed machine technology, power electronics technology and new material technology nowadays, which tremendously boost energy stored in flywheel. Combined with vacuum technology, FESS has minimal energy wastage. This paper completely discusses the several key components of FESS, covering the newest achievements in this field.
作者 汤双清 杨家军 廖道训
机构地区 华中科技大学机械学院
出处 《三峡大学学报(自然科学版)》 CAS 2002年第1期78-82,共5页 Journal of China Three Gorges University:Natural Sciences
基金 国家"九五"攀登计划资助项目 (PD952 1 90 3)
关键词 飞轮 电机 磁悬浮轴承 电力电子 复合材料 电池 flywheel electric machine magnetic suspension bearing power electronics composite material battery
分类号 TH133.7 [机械工程—机械制造及自动化]
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参考文献9

  • 1[1]Thomas J,Decker D K, Spector D V. Spacecraft Flywheel Systems-Benefits and Issues [J].Proceedings of the IEEE 1997 National (Aerospace and Electronics Conference, 1997, NAECON-97.), 1997(2):589~593.
  • 2[2]David A , Raymond B. Flywheel Technology Development Program for Aerospace Applications[J]. IEEE AES Systems Magazine, 1998(6):9~14.
  • 3[3]Jack G B. Flywheel Technology Past, Present, and 21st Century Projections[J]. IEEE AES Systems Magazine, 1998(8):13~16.
  • 4[4]Stuart R, Geza N,Greg M. The Design, Fabrication and Characterization of an Advanced Graphite Composite Structure for High Speed Rotating Machines[J]. IEEE Transactions on Magnetics, 1999,35(1):307~311.
  • 5[5]Jinhua Huang, Georges M F. Heterogeneous flywheel modeling and optimization[J]. Material and Design 2000,21:111~125.
  • 6[6]Sung K H, Dong J K, Tae H S. Optimum design of multi-ring composite flywheel rotor using a modified generalized plane strain assumption[J]. International Journal of Mechanical Sciences ,2001,43:993~1007.
  • 7[7]Kelsall D R . Pulsed Power Provision by High Speed Composite Flywheel[J]. Pulsed Power 2000, IEE Symposium ,2000(16):1~5.
  • 8[8]Zmood R B,Qin L J, Kirk J A,et al. A Magnetic Bearing System Design Methodology and its Application to a 50 Wh Open Core Composite Flywheel[J].Proceedings of the 32nd Intersociety(Energy Conversion Engineering Conference, 1997, IECEC-97).1997(4):2306~2311.
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同被引文献146

引证文献18

二级引证文献183

三峡大学学报(自然科学版)
2002年 第1期

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