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Experimental investigation of dynamic responses of a transparent PEM fuel cell to step changes in cell current density with operating temperature
Han-Sang Kim
The Journal of Mechanical Science and Technology, vol. 22, no. 11, pp.2274-2285, 2008
Abstract : The dynamic responses of a proton exchange membrane fuel cell (PEMFC) are closely related to the novel water
management technique used for the efficient operation of automotive PEMFCs. In order to better understand the dynamic
water transport during cell transients, this paper presents an experimental investigation of the transient response
of a cell under fully humidified conditions. The cell dynamic performance was measured by employing a transparent
cell and investigated with visualization images of the water distribution in the flow channels. Furthermore, the effect of
the operating temperature on the cell transients was examined. The results show that the cell dynamic behavior for the
tested operating temperature (30-50 oC) conditions is mainly governed by water transport characteristics related to
cathode flooding. Also, we show that the time needed for the cell to reach steady-state after a current density step increase
is retarded due to excessive water accumulation inside the cell at lower operating temperatures.
Keyword : Dynamic response; Fuel cell; Water transport; Transparent cell; Flow channel; Operating temperature |
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