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Full-scale multiphase simulation of automobile PEM fuel cells with different flow field configurations

Wenming Huo, Biao Xie, Siyuan Wu, Lizhen Wu, Guobin Zhang, Hanyang Zhang, Zhengguo Qin, Ying Zhu, Renfang Wang, Kui Jiao

2023International Journal of Green Energy22 citationsDOI

Abstract

In this study, a 3D + 1D (three-plus-one dimensional) multiphase PEM (proton exchange membrane) fuel cell model is developed, in which the detailed channel two-phase flow is also considered based on the two-phase Darcy’s law. Compared with conventional 3D fuel cell models, the 3D + 1D model improves calculation efficiency and stability. Utilizing this model, the simulation work is conducted on an automobile PEM fuel cell (309.12 cm2) with the full flow field morphology considered. Its accuracy is comprehensively validated at this scale against the experimentally measured polarization curves and HFR (high frequency resistance) under different anode and cathode stoichiometric ratios and pressures and operating temperatures, indicating the model reliability. Subsequently, we numerically investigate the influence of four flow field configurations on cell performance characteristics, including the wave-like, dotted, baffled, and straight flow fields. It is found that the dotted and baffled configuration effectively improved cell performance, but the wave-like flow field has little influence on cell performance compared with straight flow field. Moreover, it is found that decreasing the channel/rib width decreases the concentration loss, but it also increases the ionic ohmic loss, resulting in an optimal channel/rib width for cell performance improvement.

Topics & Concepts

Proton exchange membrane fuel cellScale (ratio)Automotive engineeringMultiphase flowFlow (mathematics)Fuel cellsMechanicsEnvironmental scienceMaterials scienceEngineeringComputer scienceChemical engineeringPhysicsQuantum mechanicsFuel Cells and Related MaterialsElectrocatalysts for Energy ConversionAdvanced Battery Technologies Research
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