The dew point temperature as a criterion for optimizing the operating conditions of proton exchange membrane fuel cells
- 作者:Torsten Berning ; tbe@et.aau.dk
- 关键词:Proton exchange membrane fuel cells ; Operating conditions ; Low stoichiometry operation ; Dew point temperature ; Dew point diagrams
- 刊名:International Journal of Hydrogen Energy
- 出版年:2012
- 期刊代码:42_03603199
- 类别:ch
- 出版时间:July, 2012
- 卷:37
- 期:13
- 页码:10265-10275
- 文件大小:1986 K
摘要
In this article an analytical method to calculate the dew point temperatures of the anode and cathode exit gas streams of a proton exchange membrane fuel cell is developed. The results of these calculations are used to create diagrams that show the dew point temperatures as function of the operating pressure, the stoichiometric flow ratios and the net drag coefficient of water through the membrane. Then, computational modeling results obtained with a previously published model are analyzed and compared with the dew point charts, and it is demonstrated how cell flooding or membrane dry-out can be predicted a priori with the aid of these diagrams. Finally, guidelines for the desired cell operating temperature based on the expected dew point temperatures are developed. In the current work these guidelines are limited to the interdigitated flow field design, and they are likely to be different for conventional flow field plates. The diagrams presented here are created for completely dry inlet gases, but they can be easily corrected for a non-zero inlet relative humidity.