Title of article :
Demonstration of a residence time distribution method for proton exchange membrane fuel cell evaluation
Author/Authors :
J. St-Pierre، نويسنده , , A. Wong، نويسنده , , M. G. Faulkner and J. Diep، نويسنده , , D. Kiel، نويسنده ,
Issue Information :
روزنامه با شماره پیاپی سال 2007
Pages :
7
From page :
196
To page :
202
Abstract :
The volume sensitive residence time distribution method is ideally suited for the study of liquid water and ice formation within operating proton exchange membrane fuel cells. Sensitivity was demonstrated with the use of simulated water drops within the flow field channel (machined obstructions) yielding a linear correlation in the 0–20% volume obstruction range between measured and theoretical hydraulic volumes. The correlation was independent of obstruction spatial distribution but dependent on gas flow rate. Sensitivity was also demonstrated by varying the amount of liquid water within a gas diffusion electrode resulting in a linear correlation in the 7–44% void volume obstruction range between normalized time difference between the points at which the tracer concentration has decayed by 20 and 90% of the steady-state value prior to the tracer injection interruption and measured gas diffusion electrode liquid water content. Sensitivity to liquid water obstructions was maintained using an operating fuel cell and two different gas diffusion media with relatively similar transport properties but further work is needed to separate flow field from gas diffusion electrode contributions. The usefulness of the residence time distribution is also demonstrated for other applications, including gas crossover through the proton exchange membrane, flow distribution uniformity and gas diffusion electrode compressibility/deformation.
Keywords :
Proton exchange membrane fuel cells , residence time distribution , Flow field obstruction , water management , Gas diffusion electrode liquid watercontent
Journal title :
Journal of Power Sources
Serial Year :
2007
Journal title :
Journal of Power Sources
Record number :
441091
Link To Document :
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