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Two-phase flow pressure drop in flow channels of proton exchange membrane fuel cells: Review of experimental approaches

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  • Mortazavi, Mehdi
  • Tajiri, Kazuya

Abstract

Water management in proton exchange membrane (PEM) fuel cells has stimulated an extensive research on different aspects of water transport phenomena. As a PEM fuel cell operates, power is produced with water and heat as inevitable byproducts. The water produced during the operation of a PEM fuel cell results in a liquid–gas two-phase flow in flow channels. A successful PEM fuel cell design requires a comprehensive knowledge about different properties of liquid–gas two-phase flow. One such property, that has a dominant impact on the performance of a PEM fuel cell, is the two-phase flow pressure drop within the flow channels. This paper reviews the two-phase flow pressure drop correlations that have been developed for the application of PEM fuel cell. It also reviews the effect of different working conditions on the two-phase flow pressure drop in PEM fuel cell flow channels.

Suggested Citation

  • Mortazavi, Mehdi & Tajiri, Kazuya, 2015. "Two-phase flow pressure drop in flow channels of proton exchange membrane fuel cells: Review of experimental approaches," Renewable and Sustainable Energy Reviews, Elsevier, vol. 45(C), pages 296-317.
    • Handle: RePEc:eee:rensus:v:45:y:2015:i:c:p:296-317
    DOI: 10.1016/j.rser.2015.01.044
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    Citations

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    Cited by:

    1. Ozen, Dilek Nur & Timurkutluk, Bora & Altinisik, Kemal, 2016. "Effects of operation temperature and reactant gas humidity levels on performance of PEM fuel cells," Renewable and Sustainable Energy Reviews, Elsevier, vol. 59(C), pages 1298-1306.
    2. Li, Yuehua & Pei, Pucheng & Ma, Ze & Ren, Peng & Wu, Ziyao & Chen, Dongfang & Huang, Hao, 2019. "Characteristic analysis in lowering current density based on pressure drop for avoiding flooding in proton exchange membrane fuel cell," Applied Energy, Elsevier, vol. 248(C), pages 321-329.
    3. Soopee, Asif & Sasmito, Agus P. & Shamim, Tariq, 2019. "Water droplet dynamics in a dead-end anode proton exchange membrane fuel cell," Applied Energy, Elsevier, vol. 233, pages 300-311.
    4. Ummartyotin, S. & Bunnak, N. & Manuspiya, H., 2016. "A comprehensive review on modified clay based composite for energy based materials," Renewable and Sustainable Energy Reviews, Elsevier, vol. 61(C), pages 466-472.
    5. Hasheminasab, M. & Kermani, M.J. & Nourazar, S.S. & Khodsiani, M.H., 2020. "A novel experimental based statistical study for water management in proton exchange membrane fuel cells," Applied Energy, Elsevier, vol. 264(C).
    6. Ashrafi, Moosa & Kanani, Homayoon & Shams, Mehrzad, 2018. "Numerical and experimental study of two-phase flow uniformity in channels of parallel PEM fuel cells with modified Z-type flow-fields," Energy, Elsevier, vol. 147(C), pages 317-328.
    7. Pei, Pucheng & Li, Yuehua & Xu, Huachi & Wu, Ziyao, 2016. "A review on water fault diagnosis of PEMFC associated with the pressure drop," Applied Energy, Elsevier, vol. 173(C), pages 366-385.
    8. Chowdhury, Mohammad Ziauddin & Timurkutluk, Bora, 2018. "Transport phenomena of convergent and divergent serpentine flow fields for PEMFC," Energy, Elsevier, vol. 161(C), pages 104-117.
    9. Pei, Houchang & Xiao, Chenguang & Tu, Zhengkai, 2022. "Experimental study on liquid water formation characteristics in a novel transparent proton exchange membrane fuel cell," Applied Energy, Elsevier, vol. 321(C).
    10. Qiu, Diankai & Peng, Linfa & Lai, Xinmin & Ni, Meng & Lehnert, Werner, 2019. "Mechanical failure and mitigation strategies for the membrane in a proton exchange membrane fuel cell," Renewable and Sustainable Energy Reviews, Elsevier, vol. 113(C), pages 1-1.

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