菜单
  

    (3)燃料供给困难。尤其是使用氢气作为电池的燃料,由于氢气的储存和运输不方便,于此对应的氢燃料供给站还需要大力建设,很大程度上阻碍了电池的使用。目前的储氢方法可以实现的储氢容量不高,从很大程度上制约了燃料电池高能量密度的实现。如果改用煤气或者其他非氢气气体燃料,还需要对燃料进行重整,加大了投入成本。[4]
    参考文献
    [1]孙丽美,曹殿学,王贵领等.纳米Pd上H2O2的电催化还原反应[J].物理化学学报.2008,24(2):323-327
    [2] 赵 钦,孙丽美*,周淑娟等.氧化锡锑负载纳米Pd 催化H2O2电还原反应的催化性能[J]. 贵 金 属.2013,34(1):13-14
    [3]韦雯雯.质子膜燃料电池的热力学优化研究及应用[D].东华大学.2013
    [4]倪学敏.直接硼氢化物燃料电池催化剂的研究[D].武汉理工大学.2010
    [5]刘建国,衣宗廉,魏昭彬.直接甲醇燃料电池的原理、进展和主要技术问题[J].电源技术,2001,25(5):363.366
    [6]PONCE DE LEON C, WALCH F C, PU!TCHER D, ct a1. Direct borohydride fuel cells[J]. J Power Sources. 2006,155(2):172-181
    [7]JUNG H W.A comparison of sodium borohydride as a fuel for proton exchange membrane fuel cells and for direct borohydride fuel cell[J]. J Power Sources. 2006,l 55(2):329—339.
    [8] 魏建良,王先友,易四勇等. 直接硼氢化物燃料电池[J]. 化学进展.2008,20(9):1427~1432
    [7] 毛示旻,刘建国,邹志刚等. 直接硼氢化钠/双氧水燃料电池研究[J].电源技术. 2008,32(12):827~831
    [8]CHOUDHURY N A, RAMAN R K, SAMPATH S, et a1. An alkaline direct borohydride fuel cell with hydrogen peroxide as oxidant[J]. Journal of Power Sources. 2005, 143(1/2): 1-8
    [9]刘学.以石墨烯为载体的直接硼氢化钠燃料电池阳极催化剂研究[D].湘潭大学.2010
    [10]RAMAN R K,CHOUDHURY N A , SHUKLA A K. A high output voltage direct borohydride fuel cell[J]. Electrochemical and Solid State Letters. 2004, 7(12): A 488-A 491
    [11]LUO N, MILEY G H, KIM K-J, et a1. NaBHdH202 fuel cells for air independent power systems[J]_Journal of Power Sources. 2008, 185(2): 685—690
    [12]CAO D, SUN L, WANG G, et a1. Kinetics of hydrogen peroxide electroreduction on Pd nanoparticles in acidic medium[J]. Journal of Electroanalytical Chemistry. 2008, 621(1): 31—37
    [13]WU H, WANG C, LIU Z, et a1. Influence of operation conditions on direct NaBH4/H202 fuel cell performance[J]. International Journal of Hydrogen Energy. 2010, 35(7): 2648-2651
    [14] RAMAN R K, SHUKLA A K. Electro-reduction of hydrogen per-oxide on iron tetramethoxy phenyl porphyrin an d lead sulfate electrodes with application in direct borohydride fuel cells[J]. Journal of Applied Electrochemistry. 2005, 35: 1 157-1161
    [15] LIU H, ZHANG L, ZHANG J, et a1. Electrocatalytic reduction of O2 and H202 by adsorbed cobalt tetramethoxyphenyl porphyrin and its application for fuel cell cathodes[J]. Journal of Power Sources. 2006, 161(2): 743-752
    [16] DIAS V L N, FERNANDES E N, DA SILVA L M S, et a1. Electrochemical reduction of oxygen and hydrogen peroxide catalyzed by a surface copper(II)-2,4,6-tris(2-piridil)-1,3,5-triazine complex adsorbed on a graphite electrode[J]. Journal of Power Sources. 2005, 142(1/2): 10-17
    [17] 李一栋,殷金玲. H2O2基燃料电池阴极催化剂的研究进展[J].化学工程师. 2011,189(6):42~44
    [18]SELVARANI G, PRASHANT S K, SAHU A K, et a1. A direct borohydride fuel cell employing Prussian Blue as mediated electron-transfer hydrogen peroxide reduction catalyst[J]. Journal of Power Sources. 2008, 178(1): 86-91
    [19] Aricò A S, Srinivasan S, Antonucci V. DMFCs: From Fundamental Aspects to Technology Development [J].Fuel Cells. 2001, 1(2): 133-161
    [20] Ralph T R, Hogarth M P. The cathode challenges[J]. Platinum Metals Review. 2002,46 (1): 3-14
    [21] Ysmael V,Gabriel A N,Mario M Y,et al. Active area and particle size of Pt particles synthesized from (NH4)2PtCl6 on a carbon support. Catalysis Today. 2005,107-108(970):826-830
  1. 上一篇:铁路集装箱运输文献综述和文献综述
  2. 下一篇:轧机文献综述和参考文献
  1. 知识共享与创新行为文献综述和参考文献

  2. 众包创新平台文献综述和参考文献

  3. 社区文化建设文献综述和参考文献

  4. 老年体育健身服务现状国...

  5. 户外运动俱乐部发展国内...

  6. 校外人员进校体育锻炼意...

  7. 中学排球开展现状国内外文献综述和参考文献

  8. NFC协议物理层的软件实现+文献综述

  9. 巴金《激流三部曲》高觉新的悲剧命运

  10. 现代简约美式风格在室内家装中的运用

  11. 高警觉工作人群的元情绪...

  12. C++最短路径算法研究和程序设计

  13. g-C3N4光催化剂的制备和光催化性能研究

  14. 上市公司股权结构对经营绩效的影响研究

  15. 中国传统元素在游戏角色...

  16. 江苏省某高中学生体质现状的调查研究

  17. 浅析中国古代宗法制度

  

About

优尔论文网手机版...

主页:http://www.youerw.com

关闭返回