论文信息 - Channel and rib geometric scale effects of flowfield plates on the performance and transient thermal behavior of a micro-PEM fuel cell

Channel and rib geometric scale effects of flowfield plates on the performance and transient thermal behavior of a micro-PEM fuel cell

Abstract Effects of channel and rib widths with an aspect ratio ( H / W ) of 0.67 of rectangular cross-sections flowfield plates on cell performance in terms of VI / PI curves versus flowfield pressure drop of a micro-proton exchange membrane (PEM) fuel cell were extensively examined. The channel-to-rib width ratios of flowfield plates were varied from 0.5 to 2. It was found that a channel-to-rib width ratio of unity was secured as far as the best performance of the VI / PI curves are concerned. Moreover, the pressure drop in flowfield on both anode and cathode was also measured. With the aid of pressure drop obtained for H 2 /air delivery, an optimal channel-to-rib width ratio in terms of the net power gain factor (=power gain/power consumption) of 0.67 can be obtained for the cases under study. Furthermore, a simple lumped capacitance model was used to predict the temperature evolution of the fuel cell system, and results show that this model performs quite well, and the channel-to-rib width ratio seems no significant influence on the fuel cell temperature evolution of the flowfield plates.

Shou-Shing Hsieh | Kuan-Ming Chu

[1] Nam-Trung Nguyen,et al. Development of a polymeric micro fuel cell containing laser-micromachined flow channels , 2005 .

[2] Chang-Soo Kim,et al. Sulfonated poly(ether ether ketone)-based composite membrane for polymer electrolyte membrane fuel cells , 2006 .

[3] Sirivatch Shimpalee,et al. The effect of stoichiometry on dynamic behavior of a proton exchange membrane fuel cell (PEMFC) during load change , 2004 .

[4] Shou-Shing Hsieh,et al. Development and performance analysis of a H2/air micro PEM fuel cell stack , 2006 .

[5] Jenn-Kun Kuo,et al. SU-8 flow field plates for a micro PEMFC , 2005 .

[6] Jenn-Kun Kuo,et al. A novel design and microfabrication for a micro PEMFC , 2003 .

[7] Christopher Hebling,et al. Investigation of fractal flow-fields in portable proton exchange membrane and direct methanol fuel cells , 2004 .

[8] Kevin G. Stanley,et al. A hybrid sequential deposition fabrication technique for micro fuel cells , 2005 .

[9] Sirivatch Shimpalee,et al. The impact of channel path length on PEMFC flow-field design , 2006 .

[10] D. Mahajan,et al. Metal bipolar plates for PEM fuel cell—A review , 2007 .