Corrosion problems related to polymer electrolyte fuel cell

被引:0
作者
Nishikata, Atsushi [1 ]
机构
[1] Tokyo Institute of Technology, Ookayama, Meguro-ku, Tokyo
来源
Zairyo to Kankyo/ Corrosion Engineering | 2009年 / 58卷 / 08期
关键词
Bipolar plate; Carbon support; Corrosion; Platinum electrocatalyst; Polymer electrolyte fuel cell;
D O I
10.3323/jcorr.58.288
中图分类号
学科分类号
摘要
Polymer electrolyte fuel cell (PEFC) is the most promising fuel cell being developed for stationary and automobile applications because of the high energy efficiency and environmentally-friendly power source. However, there still remain many problems regarding the cost and durability to be solved for the widespread commercialization. In this review paper, the problems of the material degradation related to PEFC are presented as well as the present state of the development of PEFC. The experimental results of fundamental study that author has performed as a NEDO project on corrosion of Pt catalyst and carbon support of PEFC are also presented.
引用
收藏
页码:288 / 293
页数:5
相关论文
共 50 条
  • [31] Modeling of power generation performance for polymer electrolyte fuel cell
    Inoue, G
    Shimomura, Y
    Matsukuma, Y
    Minemoto, M
    KAGAKU KOGAKU RONBUNSHU, 2003, 29 (02) : 191 - 196
  • [32] A computational model for assessing impact of interfacial morphology on polymer electrolyte fuel cell performance
    Bajpai, Hemant
    Khandelwal, Manish
    Kumbur, E. C.
    Mench, M. M.
    JOURNAL OF POWER SOURCES, 2010, 195 (13) : 4196 - 4205
  • [33] A nanocrystalline zirconium carbide coating as a functional corrosion-resistant barrier for polymer electrolyte membrane fuel cell application
    Xu, Jiang
    Li, ZhengYang
    Xu, Song
    Munroe, Paul
    Xie, Zong-Han
    JOURNAL OF POWER SOURCES, 2015, 297 : 359 - 369
  • [34] Surface composition effect of nitriding Ni-free stainless steel as bipolar plate of polymer electrolyte fuel cell
    Yu, Yang
    Shironita, Sayoko
    Nakatsuyama, Kunio
    Souma, Kenichi
    Umeda, Minoru
    APPLIED SURFACE SCIENCE, 2016, 388 : 234 - 238
  • [35] Modelling and experimental validation of a high temperature polymer electrolyte fuel cell
    K. Scott
    S. Pilditch
    M. Mamlouk
    Journal of Applied Electrochemistry, 2007, 37 : 1245 - 1259
  • [36] Hierarchical fault diagnostic method for a polymer electrolyte fuel cell system
    Lee, Won-Yong
    Oh, Hwanyeong
    Kim, Minjin
    Choi, Yoon-Young
    Sohn, Young-Jun
    Kim, Seung-Gon
    INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 2020, 45 (47) : 25733 - 25746
  • [37] Effect of CO and oxygen on anode degradation in polymer electrolyte fuel cell
    Nakamori, Yoji
    Suzuki, Naotoshi
    Tanaka, Kazuhisa
    Aoki, Tsutomu
    Nohira, Toshiyuki
    Hagiwara, Rika
    JOURNAL OF POWER SOURCES, 2013, 242 : 421 - 424
  • [38] Analytical model of flow maldistribution in polymer electrolyte fuel cell channels
    Basu, Suman
    Wang, Chao-Yang
    Chen, Kens.
    CHEMICAL ENGINEERING SCIENCE, 2010, 65 (23) : 6145 - 6154
  • [39] Design of CO tolerant anode catalysts for polymer electrolyte fuel cell
    Watanabe, M
    Igarashi, H
    Fujino, T
    ELECTROCHEMISTRY, 1999, 67 (12) : 1194 - 1196
  • [40] Development of a 1 kW polymer electrolyte fuel cell power source
    Susai, T
    Kawakami, A
    Hamada, A
    Miyake, Y
    Azegami, Y
    JOURNAL OF POWER SOURCES, 2001, 92 (1-2) : 131 - 138
12345