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双极性铅酸蓄电池的研究及进展概述 被引量:4

Updated research and progress of bipolar lead-acid battery
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摘要 双极性铅酸蓄电池与传统的铅酸电池相比,具有低欧姆电阻、高比容量、高比功率与长循环寿命等优点。本文概述了双极性铅酸电池的发展历史和研究现状,并简单介绍了双极性铅酸蓄电池的结构特点、与普通铅酸蓄电池性能的差异等。 Compared to conventional lead-acid batteries, bipolar lead-acid batteries have many advantages, such as lower ohmic resistance, higher specific capacity, higher specific power, and longer cycle life. In this paper, the development history and latest research progresses of bipolar lead-acid batteries are introduced, and the differences of structure characteristic and performance between bipolar lead-acid and common lead-acid battery have also been discussed.
作者 石沫 朱溢慧 章小琴 吴亮 柯娃 吴秋菊 戴贵平
机构地区 超威电源有限公司研究院
出处 《蓄电池》 2016年第3期146-150,共5页 Chinese LABAT Man
关键词 双极性 铅酸蓄电池 复合材料基板 电动汽车 炭/聚合物基板 炭材料 bipolar lead-acid battery composite substrate titanium electric vehicle carbon/polymer substrate carbon material
分类号 TM912.1 [电气工程—电力电子与电力传动]
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参考文献22

  • 1Pavlov D. Lead-acid batteries: Science and technology[M]. Oxford: Elsevier LTD, 2011: 633-643.
  • 2Jacob W R. Bipolar lead acid battery having titanium and zirconium electrode supports: US 4037031 A[P]. 1977.
  • 3Attia A I, Rowlette J. The development of a new sealed bipolar lead-acid battery: Proceeding of 33rd International Power Sources Symposium[C],1988:624-32.
  • 4Lafollette R M. Design and performance of high specific power, pulsed discharge, bipolar lead acid batteries: Proceeding of Annual Battery Conference on Applications & Advances-BACC, 1995[C], 1995: 43-47. DOI: 10.1109/BCAA. 1995.398511.
  • 5ang X, Wang D, Tang S, et al. Study on titanium foil coated with partial reduction titanium dioxide as bipolar lead-acid battery's substrate[J]. Journal of Power Sources, 2014, 271: 354-359.
  • 6Kao W H. Substrate materials for bipolar lead/acid batteries[J]. Journal of Power Sources, 1998, 70(1): 8-15.
  • 7Saakes M, Schellevis D, Trier D V, et al. Performance and use of composite-substrate- based bipolar lead/acid batteries for pulsed-power applications[J]. Journal of Power Sources, 1997, 67(1): 33-41.
  • 8Saakes M, Kluiters E, Schmal D, et al. Development and testing of a bipolar lead-acidbattery for hybrid electric vehicles[J]. Journal of Power Sources, 1999, 78(1):199-203.
  • 9Saakes M, Kleijnen C, Schmal D, et al. Advanced bipolar lead-acid battery for hybrid electric vehicles [J]. Journal of Power Sources, 2001, 95 (1): 68-78.
  • 10Lang X, Wang D, Zhu J. Modified titanium foil's surface by high temperature carbon sintering method as the substrate for bipolar lead-acid battery[J]. Journal of Power Sources, 2014, 272: 176-182.

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蓄电池
2016年 第3期

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