The Effect of Obstacle Number, Shape and Blockage Degree in Flow Field of PEMFC on its Performance

Zhang, Zongxi; Fan, Xiang; Lu, Wenhao; Yao, Jian; Sui, Zhike

doi:10.33961/jecst.2023.00535

J. Electrochem. Sci. Technol

2024

DOI: 10.33961/jecst.2023.00535

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The Effect of Obstacle Number, Shape and Blockage Degree in Flow Field of PEMFC on its Performance

Zongxi Zhang,

Xiang Fan,

Wenhao Lu

et al.

Abstract: <p>Proton exchange membrane fuel cell (PEMFC) has received extensive attention as it is the most common hydrogen energy utilization device. This research not only investigated the effect of obstacle number and shape on PEMFC performance, but also studied the effect of the blockage degree in the channel of PEMFC on its performance. It was found that compared with traditional scheme, longitudinally distributed obstacles scheme can significantly promote reactants transfer to catalyst layer, and the blockage… Show more

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Study on the Microflow Field Output Performance: Effects of Rib/Channel Dimensions and Sensitivity to Operating Conditions

Xu,

Lu,

Yang

2024

ACS Omega

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Rib/channel dimensions significantly affect mass transfer, product water discharge, and electron transport. Aiming for high-power density stacks, bipolar plate thickness has been continually reduced, and microflow fields with the width and height smaller than 1 mm currently lack thorough experimental study. In this article, three stainless-steel plates were designed and fabricated, featuring rib/channel widths of 0.2:0.8 mm (SS-0.2/ 0.8), 0.3:0.7 mm (SS-0.3/0.7), and 0.5:0.5 mm (SS-0.5/0.5). SS-0.5/0.5 gained a 59.05% peak power density enhancement over a graphite plate G1.0/1.0 with rib/channel widths of 1.0:1.0 mm. Furthermore, sensitivities of microflow fields to cathode inlet humidity (RHc), anode/cathode inlet pressures (P a /P c ), and cell operating temperature (T cell ) were investigated. The optimal performance was observed at a low RHc. When RHc increased to 60%, SS-0.5/0.5 was more likely to accumulate water under the rib when operating at a high current density, rapidly increasing the mass transport resistance. Microflow fields had a negligible sensitivity to P a /P c since decrease in channel width below 1 mm is sufficient for the favorable mass transfer. Increasing T cell showed a dominant impact on decreasing concentration loss via facilitating diffusion of reactant gases through the electrode surfaces and alleviating the liquid water accumulation due to an increase in the saturation vapor pressure of water.

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Study on the Microflow Field Output Performance: Effects of Rib/Channel Dimensions and Sensitivity to Operating Conditions

Xu,

Lu,

Yang

2024

ACS Omega

View full text Add to dashboard Cite

show abstract

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The Effect of Obstacle Number, Shape and Blockage Degree in Flow Field of PEMFC on its Performance

Cited by 1 publication

References 43 publications

Study on the Microflow Field Output Performance: Effects of Rib/Channel Dimensions and Sensitivity to Operating Conditions

Study on the Microflow Field Output Performance: Effects of Rib/Channel Dimensions and Sensitivity to Operating Conditions

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