Energy and AI (Sep 2024)

Engineered wettability-gradient porous structure enabling efficient water manipulation in regenerative fuel cells

  • Zhefei Pan,
  • Lizhen Wu,
  • Fengjia Xie,
  • Zhewei Zhang,
  • Zhen Zhao,
  • Oladapo Christopher Esan,
  • Xuming Zhang,
  • Rong Chen,
  • Liang An

Journal volume & issue
Vol. 17
p. 100400

Abstract

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Regenerative fuel cells can operate alternately as an electrolyzer and as a fuel cell, frequently involving water as a reactant or product. Modifying the electrode surface to manipulate water can prevent electrode flooding and enhance the electrode's mass transfer efficiency by facilitating better contact with gaseous reactants. However, conventional electrodes face difficulties in allowing water droplets to penetrate in a single direction leaving electrodes. In this work to address this issue, a wettability gradient electrode is designed and fabricated for efficient water manipulation in regenerative fuel cells. The findings demonstrate that the water removal strategy in the electrolyzer mode yields the highest ammonia yield and Faradaic efficiency of 3.39 × 10-10 mol s-1 cm-2 and 0.49 %, respectively. Furthermore, in the fuel cell mode, the discharging process sustains for approximately 20.5 h, which is six times longer than the conventional strategy. The ability to sustain the discharging process for extended periods is particularly advantageous in regenerative fuel cells, as it enables the cells to operate for longer periods without the need for regeneration.

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