Numerical modelling of in-line and staggered blockages in parallel flowfield channels of PEM fuel cells
02 engineering and technology
0210 nano-technology
7. Clean energy
DOI:
10.1016/j.ijhydene.2016.10.076
Publication Date:
2016-11-16T00:17:20Z
AUTHORS (5)
ABSTRACT
Abstract A blockage in the flowfield channel of a PEM fuel cell can enhance mass transfer of reactant gas from the channel into the catalyst layer and improve cell performance. Here, we wish to identify an optimal lay-out for the placement of blockages in the cathode side flow channels of PEM fuel cells. For this purpose, the effects of in-line and staggered blockage configurations within a parallel flowfield are numerically investigated and their fuel cell performance results are compared with those of a baseline parallel flowfield without blockages. A 3D, multiphase, non-isothermal numerical simulation of a single 9-layer counter-flow PEM fuel cell is performed. Results show that the staggered configuration enhances maximum net power by up to 11% over the baseline case, and by 7% when compared to the in-line case. The presence of over-rib-convection in the staggered configuration reduces the pressure drop by 70% when compared to the in-line case which only experiences over-block-convection. Finally, the effect of gas diffusion layer properties is investigated on PEMFC performance enhancement. Results of this numerical study are consistent with the results from our previous experimental study (Heidary et al. (2016)).
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