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质子交换膜燃料电池的温度实验分析 被引量:10

An analysis of the temperature test of proton exchange membrane fuel cell
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摘要 质子交换膜燃料电池(PEMFC)温度对发电性能的影响很大。通过自行开发的1kWPEMFC的温度控制实验,对其温度特性进行了详细分析,提出了温度控制的模型。 <Abstrcat>Proton exchange membrane fuel cell (PEMFC) temperature had great influences on the generation performance of the stack. A series of experiments on 1 kW PEMFC developed by the authors were presented. On the basis of the experimental tests of the PEMFC, its temperature characteristic was analyzed in detail and its temperature control modeling was advanced.
作者 田玉冬 朱新坚 曹广益
机构地区 上海交通大学燃料电池研究所
出处 《电池》 CAS CSCD 北大核心 2005年第3期221-222,共2页 Battery Bimonthly
基金 国家"985工程"基金资助项目(812303001)
关键词 质子交换膜燃料电池 温度 实验 分析 proton exchange membrane fuel cell(PEMFC) temperature experiment analysis
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7

  • 1Yerramalla S, Davari A, Feliachi A, et al. Modeling and simulation of the dynamic behavior of a polymer electrolyte membrane fuel cell [J]. J Power Sources, 2003, 124(1): 104-113.
  • 2Lee J H, Lalk T R. Modeling fuel cell stack systems [J]. J Power Sources, 1998, 73(2): 229-241.
  • 3YIBao-lian(衣宝廉).燃料电池--原理·技术·应用[M].Beijing (北京):ChemicalIndustry Press(化学工业出版,2003,10..
  • 4胡鸣若,朱新坚,顾安忠,石玉美.质子交换膜燃料电池的水热管理[J].电池,2003,33(4):258-260. 被引量:13
  • 5崔东周,肖金生,潘牧,袁润章.质子交换膜燃料电池水、热、气管理[J].电池,2004,34(5):373-375. 被引量:13
  • 6田玉冬,朱新坚,曹广益.质子交换膜燃料电池的建模与控制[J].电池,2004,34(4):301-303. 被引量:8
  • 7Jay T, Pukrush P, Anna G, et al. Modeling and control for PEM fuel cell stack system[A] . Proceeding of the American Control Conference[C].AK, 2002.3 117- 3 122.

二级参考文献45

  • 1Janssen G J M. A phenomenological model of water transport in a proton exchange membrane fuel cell[J]. J Electrochem Soc, 2001, 148(12): Al 313-A1 323.
  • 2Chan S H, Tun W A. Catalyst layer models for proton exchange membrane fuel cells[J]. J Chem Eng Technol, 2001, 24(1): 51-63.
  • 3Wang Z H, Wang C Y, Chen K S. Two-phase flow and transport in the air cathode of proton exchange membrane fuel cells[J] .J Power Sources, 2001, 94(1): 40-50.
  • 4Natarajan D, Nguyen T V. A two-dimensional, two-phase, multicomponent, transient model for the cathode of a proton exchange membrane fuel cell using conventional gas distributors[J]. J Electrochem Soc, 2001, 148(12): A1 324-A1 335.
  • 5Lixin Y, Hongtan L.A two-phase flow and transport model for the cathode of PEM fuel cells[J]. J Heat Mass Transfer, 2002, 45(11 ):2 277 - 2 287.
  • 6Murgia G, Pisani L, Valentini M, et al. Electrochemistry and mass transport in polymer electrolyte membrane fuel cells( Ⅰ )[J]. J Electrochem Soc, 2002, 149(1): A31 - A38.
  • 7Berning T, Lu D M, Djilali N. Three-dimensional computational analysis of transport phenomena in a PEM fuel cell[J]. J Power Sources, 2002, 106(1-2): 284-294.
  • 8Lee J H, Lalk T R, Appleby A J. Modeling electrochemical performance in large scale proton exchange membrane fuel cell stacks[J]. J Power Sources, 1998, 70(2): 258 - 268.
  • 9Lee J H, Lalk T R. Modeling fuel cell stack system[J]. J Power Sources, 1998, 73(2): 229- 241.
  • 10Yi J S, Nguyen T V. Multicomponent transport in porous electrodes of proton exchange membrane fuel cells using the interdigitated gas distributors[J]. J Electrochem Soc, 1999, 146(1): 38-45.

共引文献40

同被引文献108

引证文献10

二级引证文献59

电池
2005年 第3期

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