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Two-phase flow distributors for fuel cell flow channels

Two-phase flow distributors for fuel cell flow channels
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摘要 All existing proton exchange membrane (PEM) fuel cell gas flow fields have been designed on the basis of single-phase gas flow distribution. The presence of liquid water in the flow causes non-uniform gas distribution, leading to poor cell performance. This paper demonstrates that a gas flow restrictor/distributor, as is commonly used in two-phase flow to stabilize multiphase transport lines and multiphase reactors, can improve the gas flow distribution by significantly reducing gas real-distribution caused by either non-uniform water formation in parallel flow channels or flow instability associated with negative-slope pressure drop characteristic of two-phase horizontal flow systems. All existing proton exchange membrane (PEM) fuel cell gas flow fields have been designed on the basis of single-phase gas flow distribution. The presence of liquid water in the flow causes non-uniform gas distribution, leading to poor cell performance. This paper demonstrates that a gas flow restrictor/distributor, as is commonly used in two-phase flow to stabilize multiphase transport lines and multiphase reactors, can improve the gas flow distribution by significantly reducing gas real-distribution caused by either non-uniform water formation in parallel flow channels or flow instability associated with negative-slope pressure drop characteristic of two-phase horizontal flow systems.
作者 Hsiaotao T.Bi Pierre Sauriol Jürgen Stumper
机构地区 Clean Energy Research Centre and Department of Chemical and Biological Engineering Automotive Fuel Cell Corporation
出处 《Particuology》 SCIE EI CAS CSCD 2010年第6期582-587,共6页 颗粒学报(英文版)
基金 support from the Natural Sciences and Engineering Research Council(NSERC) of Canada
关键词 Gas distributor Gas-liquid two-phase flow Fuel cell flow field Pressure drop hysteresis Flow real-distribution Gas distributor Gas-liquid two-phase flow Fuel cell flow field Pressure drop hysteresis Flow real-distribution
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39

  • 1Anderson, R., Zhang, L., Ding, Y., Blanco, M., Bi, H. T., & Wilkinson, D. P. (2010). A critical review of two-phase flow in gas flow channels of PEM fuel fells.Journal of Power Sources, 195, 4531-4553.
  • 2Bao, Z. Y., Fletcher, D. F,, & Haynes, B, S, (2000), An experimental study of gas-liquid flow in a narrow conduit. International Journal of Heat and Mass Transfer, 43, 2313-2324.
  • 3Berg, P., Promislow, K., St. Perre, J., Stumper, J. & wetton, B. (2004). Water manage- ment in PEM fuel cells.Journal of the Electrochemical Society, 151, A341-353.
  • 4Chen, W. L., Twu, M. C., & Pan, C. (2002). Gas-liquid two-phase flow in micro- channels. International Journal of Multiphase Flow, 28, 1235-1247.
  • 5Ekberg, N. P., Ghiaasiaan, S. M., Abdel-Khalik, S. I., Yoda, M., & Jeter, S. M. (1999). Gas-liquid two-phase flow in narrow horizontal annuli. Nuclear Engineering and Design, 192, 59-80.
  • 6Hetsroni, G., Mosyak, A., Segal, Z., & Pogrebnyak, E. (2003). Two-phase flow patterns in parallel micro-channels. International Journal of Multiphase Flow, 29, 341-360.
  • 7Hsu, Y.-Y., & Graham, R. W. ( 1976 ). Transport processes in boiling and two-phase sys- tems (Chapter 9: Two-phase flow dynamics). Washington: Hemisphere Publishing Corp.
  • 8Kawahara, A., Chung, P. M.-Y., & Kawaji, M. (2002). Investigation of two-phase flow pattern, void fraction and pressure drop in a microchannel. International Journal of Multiphase Flow, 28, 1411-1435.
  • 9Kwauk, M., & Li, H. Z. (2008). Handbook of fluidization. Beijing: Chemical Industry Press,.
  • 10Lee, W.-K., Shimpalee, S., & van Zee, J. W. (2003). Verifying predictions of water and current distributions in a serpentine flow field polymer electrolyte membrane fuel cell.Journal of The Electrochemical Society, 150, A341-A348.
Particuology
2010年 第6期

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