Yang, Z.

Transient performance investigation of different flow-field designs of automotive polymer electrolyte membrane fuel cell using computational fluid dynamics

Conference paper

Yang, Z. 2014. Transient performance investigation of different flow-field designs of automotive polymer electrolyte membrane fuel cell using computational fluid dynamics. International Centre for Heat and Mass Transfer (ICHMT)..

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Authors	Yang, Z.
Type	Conference paper
Abstract	Transient performance of a polymer electrolyte membrane (PEM) fuel cell in terms of the time-dependent current density profile that responds to the varying cell potential is of critical importance for an automotive PEM fuel cell. A step change in cell potential is applied to the cell terminals to simulate a sudden change in load demand due to an engine startup or very high acceleration. The transient responses of the three most commonly used flow-fields, namely, parallel, single-serpentine, and interdigitated designs in terms of the magnitude of current overshoot and time taken to adjust to the new equilibrium state are compared. The results suggest the serpentine flow-field outperforms its two counterparts as it balances the satisfactory transient performance with an expense of acceptable pressure drop across the cell and hence it is the most appropriate design to be used in automotive PEM fuel cells.
	Transient performance of a polymer electrolyte membrane (PEM) fuel cell in terms of the time-dependent current density profile that responds to the varying cell potential is of critical importance for an automotive PEM fuel cell. A step change in cell potential is applied to the cell terminals to simulate a sudden change in load demand due to an engine startup or very high acceleration. The transient responses of the three most commonly used flow-fields, namely, parallel, single-serpentine, and interdigitated designs in terms of the magnitude of current overshoot and time taken to adjust to the new equilibrium state are compared. The results suggest the serpentine flow-field outperforms its two counterparts as it balances the satisfactory transient performance with an expense of acceptable pressure drop across the cell and hence it is the most appropriate design to be used in automotive PEM fuel cells.
Keywords	Fuel cells; CFD
Year	2014
Journal	Proceedings of the 10th International Conference on Heat Transfer, Fluid Mechanics and Thermodynamics
Publisher	International Centre for Heat and Mass Transfer (ICHMT).
Web address (URL)	http://hdl.handle.net/10545/620638
	hdl:10545/620638
File	HEFAT2014.pdf File Access Level Open
File	license.txt File Access Level Open
Publication dates	2014
Deposited	17 Oct 2016, 19:35
Contributors	University of Derby, UK

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