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Numerical investigation of water droplet impact on PEM fuel cell flow channel surface

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  • Qin, Yanzhou
  • Guo, Qiaoyu
  • Chen, Rouxian
  • Zhuang, Yuan
  • Wang, Yulin

Abstract

Proton exchange membrane (PEM) fuel cell is a clean energy conversion device. Water management is one of the critical issues limiting the PEM fuel cell performance and service life. Liquid water impact on fuel cell surface significantly influences water transport and removal in the PEM fuel cell. In this study, a numerical investigation of water impact on the channel surface opposite to the GDL is carried out using the volume of fluid (VOF) method. The effects of impact velocity, droplet size, surface contact angle, temperature and impact angle on the water impact process are investigated. Water droplet impact on the wet flow channel surface is also considered. The results reveal that the water droplet experiences spreading and retraction stages in the impact process on a dry surface, determined by the interactions among the surface tension, inertial force and viscous force. Increasing the impact velocity, droplet size, surface hydrophilicity, temperature and impact angle lead to greater maximum water spreading factor on the surface. The water motion modes mainly include merging, crown-shaped jet flow and splashing on a wet surface, based on the magnitude of the impact velocity. The splashing is easier to occur for water droplet impact on a wet surface.

Suggested Citation

  • Qin, Yanzhou & Guo, Qiaoyu & Chen, Rouxian & Zhuang, Yuan & Wang, Yulin, 2021. "Numerical investigation of water droplet impact on PEM fuel cell flow channel surface," Renewable Energy, Elsevier, vol. 168(C), pages 750-763.
    • Handle: RePEc:eee:renene:v:168:y:2021:i:c:p:750-763
    DOI: 10.1016/j.renene.2020.12.075
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    References listed on IDEAS

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    1. Carton, J.G. & Lawlor, V. & Olabi, A.G. & Hochenauer, C. & Zauner, G., 2012. "Water droplet accumulation and motion in PEM (Proton Exchange Membrane) fuel cell mini-channels," Energy, Elsevier, vol. 39(1), pages 63-73.
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    3. Yin, Yan & Wu, Shiyu & Qin, Yanzhou & Otoo, Obed Nenyi & Zhang, Junfeng, 2020. "Quantitative analysis of trapezoid baffle block sloping angles on oxygen transport and performance of proton exchange membrane fuel cell," Applied Energy, Elsevier, vol. 271(C).
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    Cited by:

    1. Ouyang, Tiancheng & Liu, Wenjun & Liu, Benlong & Hu, Xiaoyi & Shi, Xiaomin, 2023. "Design and optimization of a novel sinusoidal corrugated channel for microfluidic fuel cell with gas-liquid two-phase flow model," Renewable Energy, Elsevier, vol. 208(C), pages 737-750.
    2. Calili-Cankir, Fatma & Ismail, Mohammed S. & Ingham, Derek B. & Hughes, Kevin J. & Ma, Lin & Pourkashanian, Mohamed, 2023. "Air-breathing polymer electrolyte fuel cells: A review," Renewable Energy, Elsevier, vol. 213(C), pages 86-108.
    3. Calili-Cankir, Fatma & Ismail, Mohammed S. & Berber, Mohamed R. & Alrowaili, Ziyad A. & Ingham, Derek B. & Hughes, Kevin J. & Ma, Lin & Pourkashanian, Mohamed, 2022. "Dynamic models for air-breathing and conventional polymer electrolyte fuel cells: A comparative study," Renewable Energy, Elsevier, vol. 195(C), pages 1001-1014.
    4. Ouyang, Tiancheng & Chen, Jingxian & Liu, Wenjun & Xu, Peihang & Lu, Jie & Zhao, Zhongkai, 2022. "A comprehensive evaluation for microfluidic fuel cells from anti-vibration viewpoint using phase field theory," Renewable Energy, Elsevier, vol. 189(C), pages 676-693.

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