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汽车用锌空气动力电池研究现状 被引量:3

Development status of zinc air power battery for electric vehicles
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摘要 锌空气电池具有高比能量、低成本、无污染、不燃爆、可循环利用等优势,适宜用作城市电动汽车的动力电源。目前国内外电动汽车用锌空气动力电池主要采用机械充电式锌空气电池和锌膏循环式锌空气电池两种结构,这两种结构都是通过更换锌负极使电池连续工作。论述了锌空气动力电池还需要解决一些问题,并分析了其发展前景。 Zinc air battery can be an alternative power source for urban electric vehicles due to its high specific energy, low cost, non-pollution, non-explosion and recycle. Now, zinc air battery structures for electric vehicles mainly include mechanically rechargeabte zinc air battery and zinc air battery with zinc slurry cycle system. The batteries with both structures continuously work by replacing the discharged zinc electrode with the new zinc electrode or the zinc slurry. The problems of zinc air power battery needed to be solved further were discussed, and its development prospect was analyzed.
作者 景义军 郭际 孟宪玲 武彩霞
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 2011年第10期1302-1303,1319,共3页 Chinese Journal of Power Sources
关键词 锌空气动力电池 机械充电 锌膏循环 zinc air power battery mechanically rechargeable zinc slurry cycle system
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4

  • 1GOLDSTEIN J, BROWN I, KORETZ B. New developments in the electric fuel Ltd. zinc/air system [J]. J Power Sources, 1999, 80: 171-179.
  • 2GOLDMAN A J. Electrical Power Storage Apparatus: US, 5196275 [P]. 1993-03-23.
  • 3PINTO M, SMEDLEY S I, COLBORN J A. Refuelable electro- chemical power source capable of being maintained in a substan- tially constant full condition and method of using the same:US, 6706433 [P]. 2004-03-16.
  • 4周利民.注入式锌空气金属燃料电池及更换锌负极的方法:中国,200610114690.9[P].2008-06-04.

同被引文献80

  • 1胡卫华,喻敬贤,杨汉西,左正忠.二维锌枝晶生长行为研究[J].武汉大学学报(理学版),2004,50(4):431-435. 被引量:17
  • 2崔萌佳,戴永年,姚耀春,杨斌,任海伦,李伟宏.电动车用动力电池的研究概况[J].昆明理工大学学报(理工版),2004,29(6):122-126. 被引量:10
  • 3张奇尧,王善民,陈云娣,谢红卫.碱锰电池负极添加稀土氧化物的研究[J].电池,2005,35(3):212-213. 被引量:3
  • 4李秀芬,雷跃峰.电动汽车关键技术发展综述[J].上海汽车,2006(1):8-10. 被引量:32
  • 5LI Y, DAI H. Recent advances in zinc-air batteries[J]. Chemical Society Reviews, 2014, 43 (15): 5257-5275.
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  • 7RAHMAN M A, WANG X, WEN C. High energy density metal-air batteries: a review[J]. Journal of the Electrochemical Society, 2013, 160 (I0) A1759-A1771.
  • 8MA H, WANG B, FAN Y, et al. Development and characterization of an electrically reehargeable zinc-air battery stack[J]. Energies, 2014, 7 (10): 6549-6557.
  • 9KANNAN A R S, MURALIDHARAN S, SARANGAPANI K B, et al. Corrosion and anodic behaviour of zinc and its ternary alloys in alkaline battery electrolytes[J]. Journal of Power Sources, 1995, 57 ( 1 ): 93-98.
  • 10LEE S M, KIM Y J, EOM S W, et al. Improvement in self-discharge of Zn anode by applying surface modification for Zn-air batteries with high energy density[J]. Journal of Power Sources, 2013, 227: 177-184.

引证文献3

二级引证文献26

电源技术
2011年 第10期

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