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W4375953433 abstract "Flow field design plays a key role in enhancing the performance of proton exchange membrane fuel cell (PEMFC). In this work, the cathode flow field is optimized to enhance the performance of PEMFC by improving the capacity of mass transfer and water removal, and a three-dimensional, two-phase, isothermal numerical model is established to evaluate its performance. Additionally, visualization experiment is carried out to verify the simulation results. It shows that the opposite sinusoidal wave flow fields (OSWFFs) with single-inlet, dual-inlet and the block provide 6.86%, 1.26%, and 2.31% performance enhancement, respectively, compared with the parallel flow fields (PFFs), which positively affects the mass transfer capacity and water removal performance. Among them, the dual-inlet OSWFF with block is the most helpful for performance enhancement, with an enhancement of 9.30% at 2.2 A cm−2 compared to the PFF. Moreover, Pearson correlation coefficient (PCC) is proposed for the first time to evaluate the correlation between each index and PEMFC performance. The comparison of stoichiometric ratios shows that the more significantly correlated indexes contribute to the dual-inlet OSWFF outperforming the single-inlet OSWFF at high inlet velocities, verifying the applicability of PCC in PEMFC." @default.
W4375953433 created "2023-05-10" @default.
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W4375953433 date "2023-08-01" @default.
W4375953433 modified "2023-10-02" @default.
W4375953433 title "Optimal design of a cathode flow field for performance enhancement of PEM fuel cell" @default.
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W4375953433 cites W2005513306 @default.
W4375953433 cites W2016054127 @default.
W4375953433 cites W2018760290 @default.
W4375953433 cites W2038019500 @default.
W4375953433 cites W2052607902 @default.
W4375953433 cites W2070810461 @default.
W4375953433 cites W2072166398 @default.
W4375953433 cites W2099580574 @default.
W4375953433 cites W2109494795 @default.
W4375953433 cites W2322017836 @default.
W4375953433 cites W2334125263 @default.
W4375953433 cites W2565156583 @default.
W4375953433 cites W2584155888 @default.
W4375953433 cites W2741021530 @default.
W4375953433 cites W2741165328 @default.
W4375953433 cites W2754548576 @default.
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W4375953433 cites W2780476627 @default.
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W4375953433 cites W2883961046 @default.
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W4375953433 cites W2993147598 @default.
W4375953433 cites W2997138566 @default.
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W4375953433 doi "https://doi.org/10.1016/j.apenergy.2023.121226" @default.
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