A analysis group on the Division of Vitality Engineering of the College of Seville and collaborators at AICIA and Harbin Institute of Expertise in China have achieved a greater understanding of the cooling of polymer electrolyte membrane (PEM) gas cell stacks and the connection with the temperature gradients within the membrane.
The investigation was primarily based on the numerical evaluation of the warmth switch for serpentine-type cooling channels in a PEM gas cell, assessing the affect of the working situations to ascertain a novel correlation for the warmth switch efficiency, i.e., the Nusselt quantity.
Outcomes decided that the coolant mass circulation and the bipolar plate thermal conductivity introduced the next impact on the refrigeration functionality of a PEMFC stack. The findings are revealed within the journal Vitality.
Refrigeration of the stacks performs an necessary function within the design of PEMFC stacks as a result of correct cooling helps to mitigate the dangers brought on by extreme temperature gradients that result in degradation and detrimental results on the integrity of the membrane. Consequently, refrigeration of the stacks performs a key function within the effectivity and sturdiness of a PEM stack.
The refrigeration functionality of the PEM stack was studied by computational fluid dynamics (CFD) simulations in a 100 cm2 lively space cell with serpentine sort cooling channels, various the coolant sort, the mass circulation fee, the thermal contact resistance, the bipolar plate materials and the design of the cooling channels. A novel warmth switch correlation was proposed with validity for a complete vary of working situations.
The principle results of this analysis—a novel correlation for the Nusselt quantity for PEM gas cell stacks that can be utilized for a variety of working situations—will facilitate the cooling system design in a PEM stack, permitting researchers to foresee whether or not designs would finally result in degradation, thus contributing to the design of stacks with longer sturdiness and efficiency.
Extra info:
Laura González-Morán et al, A numerical research on warmth switch for serpentine-type cooling channels in a PEM gas cell stack, Vitality (2024). DOI: 10.1016/j.vitality.2024.132634
College of Seville
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Investigating warmth switch for PEM gas cell cooling channels (2024, September 19)
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