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Performance improvement of micro-fuel cell by manipulating the charged diffuse layer
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10.1063/1.4752459
/content/aip/journal/apl/101/11/10.1063/1.4752459
http://aip.metastore.ingenta.com/content/aip/journal/apl/101/11/10.1063/1.4752459

Figures

Image of FIG. 1.
FIG. 1.

Device configuration used for electrolyte advection through nano-porous electrodes. The device comprised of two inlets on opposing sides of a microchannel that feed to porous electrodes which are separated by a central region. The nano-pores (inset) are considered to be slots extending the full height of the planar channel.

Image of FIG. 2.
FIG. 2.

Power density performance for a (a) H-O and (b) M-H device with nano-pore widths are equal to that of the Debye length (d 5  = λD ) and various average electrolyte velocities, VAvg . The average electrolyte velocities used are: 2, 5, 10, 15, and 20 mm/s. (, , , , ).

Image of FIG. 3.
FIG. 3.

Power density performance for a (a) H-O and (b) M-H device with nano-pore widths 10 times that of the Debye length (d 5  = 10λD ) at various average electrolyte velocities, VAvg . All other conditions are the same as in Figure 2.

Image of FIG. 4.
FIG. 4.

Power density performance for a (a) H-O and (b) M-H device with twice the nano-pore lengths (d 2 = 2 μm) and various average electrolyte velocities, VAvg . All other conditions are same as in Figure 2.

Tables

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Table I.

Intended order of magnitude for key dimensions in porous electrode device.

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/content/aip/journal/apl/101/11/10.1063/1.4752459
2012-09-12
2014-04-18
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752b84549af89a08dbdd7fdb8b9568b5 journal.articlezxybnytfddd
Scitation: Performance improvement of micro-fuel cell by manipulating the charged diffuse layer
http://aip.metastore.ingenta.com/content/aip/journal/apl/101/11/10.1063/1.4752459
10.1063/1.4752459
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