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压力模块在氢镍电池充电控制中的应用 被引量:4

Application of pressure module in charge control of nickel hydrogen cell
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摘要 氢镍电池内部压力可以直接反映电池的荷电状态,因此压力作为氢镍电池的充电控制方式在国外卫星中广泛应用。介绍了压力模块的原理与设计,对比了氢镍电池的充电控制方法,对压力充电控制中压力与荷电状态、温度和循环寿命关系等方面进行了研究,探讨了国内外压力充电控制方式。压力模块在氢镍电池充电控制中的应用表明,压力充电控制为氢镍电池的充电控制提供了一种有效的方法。 Nickel-hydrogen cell pressure can reflect state of charge directly, thus pressure as charge control method of nickel-hydrogen cell is used widely in international satellites. The principle and design of pressure module was introduced, three kinds of charge control methods were compared. The aspects such as relations between pressure and state of charge, temperature and cycles in charge control were studied. International pressure charge control methods were also discussed. The application of pressure module indicates that pressure charge control provides the effective method to nickel-hydrogen cell.
作者 焦萌 罗萍 靳增会 李会娟 郝永辉
机构地区 中国电子科技集团公司第十八研究所
出处 《电源技术》 CAS CSCD 北大核心 2008年第11期764-768,共5页 Chinese Journal of Power Sources
关键词 氢镍电池 压力模块 充电控制 nickel hydrogen cell pressure module charge control
分类号 TM912.2 [电气工程—电力电子与电力传动]
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参考文献3

  • 1DUNLOP J D, RAO G M, YI T Y. NASA handbook for nickelhydrogen batteries[R].US: National Aeronautics and Space Administration, 1993 : 2-4,2-6.
  • 2THALLER L H, ZIMMERMAN A H. Overview of the design, development, and application of nickel-hydrogen batteries [R]. Glenn Research Center: National Aeronautics and Space Administration, 2003: 22.
  • 3GASTON S J, CHILELLI N V. Cell pressure as a state-of-charge indicator in individual pressure vessel nickel-hydrogen batteries [C]//Proceedings of the 25th Intersociety Energy Conversion Engineering Conference. New York: American Institute of Chemical Engineers, 1990(3):43-47.

同被引文献20

  • 1王家捷,穆举国,茹海涛.锌镍动力电池的发展和应用[J].电池工业,2006,11(3):194-196. 被引量:11
  • 2朱梅,徐献芝.锌空气动力电池的应用与循环经济建设[J].中国资源综合利用,2007,25(5):38-40. 被引量:4
  • 3THALLER L H,ZIMMERMAN A H.Overview of the design,development,and application of nickel-hydrogen batteries [M].Glenn Research Center: National Aeronautics and Space Administration, 2003.22.
  • 4DAVID L,THOMAS B R. Handbook ofbatteries[M].Third edition. United States of America:The McGraw-Hill Companies,2001.17-32.
  • 5DAVID L,THOMAS B R. Handbook of batteries[M].Third edition. United States of America : The McGraw-Hill Companies, 2001 : 17- 32.
  • 6ARAI J, YAMAKI T. Development of a high power lithium sec- ondary battery for hybrid electric vehicles [J].Joumal of Power Sources, 2005,146 : 788-7921.
  • 7KOBAYASH1 H,SHIKANO M,SHIN J.Investigation of positive electrodes after cycle testing of high power Li-ion battery cells 11 an approach to the power fading mechanism using XANES [J]. Journal of Power Sources, 2007, 174 : 380 -386.
  • 8HORIBA T,MAESHIMA T,MATSUMURA T,et al. Applications of high power density lithium ion batteries [J]. Journal of Power Sources,2005, 146:107 - 110.
  • 9ZIMMERMAN A H. Life modeling for nickel hydrogen batteries in geosynchronous satellite operation [C]// 3rd International Energy Conversion Conference. San Francisco: AIAA, 2005:263-269.
  • 10THALLER L H,Z1MMERMAN A H.Overview of the design, deve- lopment, and application of nickel-hydrogen batteries[R].Califomia: NASA, 2003.

引证文献4

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电源技术
2008年 第11期

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