Title of article
A study of water transport as a function of the micro-porous layer arrangement in PEMFCs
Author/Authors
Kim، نويسنده , , Taeyoung and Lee، نويسنده , , Seungjae and Park، نويسنده , , Heekyung Park، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2010
Pages
13
From page
8631
To page
8643
Abstract
Electrochemical losses as a function of the micro-porous layer (MPL) arrangement in Proton Exchange Membrane Fuel Cells (PEMFCs) are investigated by electrochemical impedance spectroscopy (EIS). Net water flux across the polymer membrane in PEMFCs is investigated for various arrangements of the MPL, namely with MPL on the cathode side alone, with MPL on both the cathode and the anode sides and without MPL. EIS and water transport are recorded for various operating conditions, such as the relative humidity of the hydrogen inlet and current density, in a PEMFC fed by fully-saturated air. The cell with an MPL on the cathode side alone has better performance than two other types of cells. Furthermore, the cell with an MPL on only the cathode increases the water flux from cathode to anode as compared to the cells with MPLs on both electrodes and cells without MPL. Oxygen-mass-transport resistances of cells in the presence of an MPL on the cathode are lower than the values for the other two cells, which indicates that the molar concentration of oxygen at the reaction surface of the catalyst layer is higher. This suggests that the MPL forces the liquid water from the cathode side to the anode side and decreases the liquid saturation in GDL at high current densities. Consequently, the MPL helps in maintaining the water content in the polymer membrane and decreases the cathode charge transfer and oxygen-mass transport resistances in PEMFCs, even when the hydrogen inlet has a low relative humidity.
Keywords
PEMFC , Gas diffusion layer , Electrochemical impedance spectroscopy , Micro-porous layer , Net water-drag coefficient
Journal title
International Journal of Hydrogen Energy
Serial Year
2010
Journal title
International Journal of Hydrogen Energy
Record number
1662229
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