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胶体阀控式铅酸蓄电池电性能研究 被引量:9

Researches on performance of gel valve-regulated lead-acid batteries
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摘要 通过比较AGM及胶体阀控式铅酸蓄电池电性能表明,简单地将硫酸电解液替换为胶体电解液将导致电池容量明显下降。搁置试验表明,胶体电池比AGM电池自放电明显减小,失水少,并且胶体电池容量可100%恢复,因此胶体电池具有长寿命特点。通过优化工艺制备的胶体电池,其初期电性能完全可以达到普通AGM阀控式铅酸蓄电池电性能水平。 By comparison with the performances of both AGM and gel valve-regulated lead-acid(VRLA)batteries,it indicates that the capacity of the gel battery decreases significantly if the SiO_2 gel is substituted directly for the H_2SO_4 electrolyte.The shelf life test shows that the gel battery has low self-discharge rate and water loss,and the 100 % capacity can be recovered.So the gel battery has a characteristic of long life.The initial performances of gel battery can reach those of AGM battery by optimizing manufacture technology of the gel battery.
作者 郭永榔
机构地区 福州大学化学化工学院
出处 《蓄电池》 2004年第4期147-150,160,共5页 Chinese LABAT Man
关键词 胶体电池 AGM阀控式铅酸蓄电池 搁置寿命 SiO2胶体 AGM VRLA battery gel battery shelf life SiO_2 gel
分类号 TM912.4 [电气工程—电力电子与电力传动]
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参考文献6

  • 1G. Bonduelle and X. Muneret, VRLA batteries in telecom application: AGM or gel? [J]. Telecommunications Energy Special, 2000. TELESCON. The Third International Conference, May 2000, 75 - 79.
  • 2H. Tuphorn, Valve regulated gel-batteries for stand-by-applications [J], Telecommunications Energy Conference, 1993.INTELEC '93. 15th International, Volume: 2, Sept.1993, 130- 134.
  • 3F. Kramm and H. Kretzschmar, Accelerated life tests and development of telecom batteries in gel-technology [ J ],Telecommunications Energy Conference, 1996. INTELEC'96. 18th International, Oct. 1996, 193- 197.
  • 4A. L. Ferreira and H. A. Lingscheidt, Impact of separator design on the performance of gelled-electrolyte valve-regulated lead/acid batteries [J]. J. Power Sources, 67 (1997) 291- 297.
  • 5J. A. Wertz and T. J. Clough, Development of advanced lead acid batteries for electric vehicles [ J ], Battery Conference on Applications and Advances, 2000. The Fifteenth Annual, Jan. 2000, 77- 82.
  • 6F. Kramm, Field experiences with VRLA-gel-batteries in stationary applications over a period of more than 20 years [ J ],Telecommunications Energy Conference, 2001. INTELEC 2001. Twenty-Third International, Oct. 2001, 603~607.

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蓄电池
2004年 第4期

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