Muhammad Arif scite author profile

High-resolution neutron radiography was used to image an operating proton exchange membrane fuel cell in situ. The crosssectional liquid water profile of the cell was quantified as a function of cell temperature, current density, and anode and cathode gas feed flow rates. Detailed information was obtained on the cross-sectional water content in the membrane electrode assembly and the gas flow channels. At low current densities, liquid water tended to remain on the cathode side of the cell. Significant liquid water in the anode gas flow channel was observed when the heat and water production of the cell were moderate, where both water diffusion from the cathode and thermal gradients play a significant role in determining the water balance of the cell. Within the membrane electrode assembly itself, the cathode side was moderately more hydrated than the anode side of the assembly from 0.1 to 1.25 A cm −2 . The total liquid water content of the membrane electrode assembly was fairly stable between current densities of 0.25 and 1.25 A cm −2 , even though the water in the gas flow channels changed drastically over this current density range. At 60°C, the water content in the center of the gas diffusion layer was depleted compared to the membrane or gas flow channel interfaces. This phenomenon was not observed at 80°C where evaporative water removal is prevalent.

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Effects of flow field and diffusion layer properties on water accumulation in a PEM fuel cell

Owejan¹,

Trabold²,

Jacobson³

et al. 2007

International Journal of Hydrogen Energy

230

138

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Muhammad Arif

In situ neutron imaging technique for evaluation of water management systems in operating PEM fuel cells

Observation of the topological Aharonov-Casher phase shift by neutron interferometry

In Situ High-Resolution Neutron Radiography of Cross-Sectional Liquid Water Profiles in Proton Exchange Membrane Fuel Cells

Effects of flow field and diffusion layer properties on water accumulation in a PEM fuel cell

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