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泡沫镍载钌催化硼氢化钠水解制氢 被引量:4

Hydrolysis of Sodium Borohydride by Ru-Ni Foam Catalyst
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摘要 应用化学镀法制备泡沫镍载钌(Ru)催化剂,以其用于燃料电池硼氢化钠(NaBH4)水解即时供氢.该催化剂具有稳定高效的活性和稳定性能,而泡沫镍的预处理是一重要步骤.研究了制氢过程中NaBH4浓度、反应温度及使用次数对产氢速率的影响.结果表明:产氢速率随温度的升高快速上升,当反应温度从15℃升高到60℃,产氢速率增加了十几倍;在NaBH4浓度为20%的3%NaOH溶液中,使用载Ru量为3%的催化剂,于23.5℃常压下,水解NaBH4,其产氢速率达到0.784 mL.s-1.g-1.这种容易制备的催化剂在多次使用后仍显示出较高的活性. This paper presented a method of hydrogen generation from sodium borohydride solution for fuel cells. The Ru-Ni foam catalyst which was prepared by chemical plating showed strong activity and stability. The pretreatment of Ni foam before chemical plating was very important for the catalyst' s strong activity and stability. This easy-to-prepared catalyst exhibited a good activity after being used several times. The effects of NaBH4 concentration, temperature and used times on the hydrogen generation rate were investigated. The results showed that the rate was remarkablely increased with the temperature rising and the rate increased more than ten times when the temperature of reaction rised from 15 ℃ to 60℃. In the view-point of practical application, the NaBH4 concentration of 15% - 20% kept relatively high rate of hydrogen generation and relatively high hydrogen storage efficiency. The rate could reach to 0.784 mL·s^-1 with every gram catalyst of 3% Ru loading when the NaBH4 concentration was 20% and the NaOH concentration was 3% at 23.5 ℃.
作者 程杰 叶锋 王同涛 李晶晶 王永亮 王新东
机构地区 北京科技大学物理化学系
出处 《电化学》 CAS CSCD 北大核心 2008年第3期269-272,共4页 Journal of Electrochemistry
基金 国家自然科学基金(50528404) 国家863计划(2006AA03Z224)和(2007AA05Z150)资助
关键词 NABH4 制氢 载Ru催化剂 反应装置 燃料电池 NaBH4 hydrogen generation Rn loading catalyst generator fuel cells
分类号 TM911.4 [电气工程—电力电子与电力传动]
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参考文献8

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  • 2Schlesinger H I, Brown H C, Finholt A E, et al. Sodium borohydride, its hydrolysis and its use as a reducing agent and in the generation of hydrogen[ J]. J Am Chem Soc, 1953, 75(1) : 215-219.
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同被引文献25

  • 1王涛,张熙贵,李巨峰,钦佩,夏保佳.硼氢化钠水解制氢的研究[J].燃料化学学报,2004,32(6):723-728. 被引量:21
  • 2Haile S M. Fuel Cell Materials and Components[ J]. Acta Materialia,2003,51 (19) :5981 -6000.
  • 3Ma J,Choudhury N A,Sahai Y. A Comprehensive Review of Direct Borohydride Fuel Cells [ J 1 ~ Renewable & Sustainable Energy Reviews ,2010,14 ( 1 ) : 183 - 199.
  • 4Wu C ,Wu F,Bai Y,et al, Cobalt Boride Catalysts for Hydrogen Generation from Alkaline NaBH4 Solution[ J]. Mater lett, 2005,59( 14/15 ) : 1748 - 1751.
  • 5Sifer N,Gardner K. An Analysis of Hydrogen Production from Ammonia Hydride Hydrogen Generators for Use in Military Fuel Cell Environments[ J]. J Power Sources ,2004,132(1/2) : 135 - 138.
  • 6Gislon P, Monteleone G, Prosini P P. Hydrogen Production from Solid Sodium Borohydride [ J ]. Int J Hydrogen Energy, 2009,34 ( 2 ) : 929 - 937.
  • 7Hsueh C L, Chert C Y, Ku J R, et al. Simple and Fast Fabrication of Polymer Template-Ru Composite as a Catalyst for Hydrogen Generation from Alkaline NaBH4 Solution [ J ]. J Power Sources, 2008,177 ( 2 ) :485 - 492.
  • 8Liu Z, Guo B, Chan S H, et al. Pt and Ru Dispersed on LiCoO2 for Hydrogen Generation from Sodium Borohydride Solutions [J]. J Power Sources,2008,176(1) :306 -311.
  • 9Amendola S C, Sharp-Goldman S L, Saleem Janjua M, et al. A Safe, Portable, Hydrogen Gas Generator Using Aqueous Borohydride Solution and Ru Catalyst[ J]. Int J Hydrogen Energy,2000,25 (10) :969- 975.
  • 10Ingersoll J C, Mani N,Thenmozhiyal J C, et al.Catalytic hydrolysis of sodium borohydride by a novel nickel-cobalt-boride catalyst [J]. J.Power Sources, 2007,173 ( 1 ) :450-457.

引证文献4

二级引证文献10

电化学
2008年 第3期

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