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Local resolved investigation of hydrogen crossover in polymer electrolyte fuel cell

Author

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  • Shan, Jing
  • Gazdzicki, Pawel
  • Lin, Rui
  • Schulze, Mathias
  • Friedrich, K. Andreas

Abstract

In this study, the effects of temperature, pressure and relative humidity (RH) on hydrogen crossover rate from anode to cathode of a PEMFC is investigated. Segmented cells are used to measure the local hydrogen crossover current density (jH2cross) distribution. The results present approximate linear increase of the hydrogen crossover rate with increasing temperature and hydrogen back pressure with rates of 0.038 mA cm−2 K−1 and 3.33 mA cm−2 bar−1, respectively. Generally, slightly increased H2 crossover is observed in gas inlet areas than cell average. Unlike the approximate linear relationship between temperature or pressure with hydrogen crossover, the effect of relative humidification on hydrogen crossover is more complex with different increasing rate before fully humidification and dramatic decline at excessive humidification. It is demonstrated that segmented cells can be advantageously applied to study local H2 crossover of intact MEAs.

Suggested Citation

  • Shan, Jing & Gazdzicki, Pawel & Lin, Rui & Schulze, Mathias & Friedrich, K. Andreas, 2017. "Local resolved investigation of hydrogen crossover in polymer electrolyte fuel cell," Energy, Elsevier, vol. 128(C), pages 357-365.
  • Handle: RePEc:eee:energy:v:128:y:2017:i:c:p:357-365
    DOI: 10.1016/j.energy.2017.03.104
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    Citations

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    Cited by:

    1. Indro Biswas & Daniel G. Sánchez & Mathias Schulze & Jens Mitzel & Benjamin Kimmel & Aldo Saul Gago & Pawel Gazdzicki & K. Andreas Friedrich, 2020. "Advancement of Segmented Cell Technology in Low Temperature Hydrogen Technologies," Energies, MDPI, vol. 13(9), pages 1-22, May.
    2. Ding, Feng & Zou, Tingting & Wei, Tao & Chen, Lei & Qin, Xiaoping & Shao, Zhigang & Yang, Jianjun, 2023. "The pinhole effect on proton exchange membrane fuel cell (PEMFC) current density distribution and temperature distribution," Applied Energy, Elsevier, vol. 342(C).
    3. Chu, Tiankuo & Xie, Meng & Yu, Yue & Wang, Baoyun & Yang, Daijun & Li, Bing & Ming, Pingwen & Zhang, Cunman, 2022. "Experimental study of the influence of dynamic load cycle and operating parameters on the durability of PEMFC," Energy, Elsevier, vol. 239(PD).
    4. Miao, Tianwei & Tongsh, Chasen & Wang, Jianan & Cheng, Peng & Liang, Jinqiao & Wang, Zixuan & Chen, Wenmiao & Zhang, Chao & Xi, Fuqiang & Du, Qing & Wang, Bowen & Bai, Fuqiang & Jiao, Kui, 2022. "Current density and temperature distribution measurement and homogeneity analysis for a large-area proton exchange membrane fuel cell," Energy, Elsevier, vol. 239(PA).
    5. Liu, Dengcheng & Lin, Rui & Feng, Bowen & Han, Lihang & Zhang, Yu & Ni, Meng & Wu, Sai, 2019. "Localised electrochemical impedance spectroscopy investigation of polymer electrolyte membrane fuel cells using Print circuit board based interference-free system," Applied Energy, Elsevier, vol. 254(C).

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