Abstract
Water uptake and electro-osmosis are investigated to improve the understanding and aid the modeling of water transport in proton-exchange membrane fuel cells (PEMFCs) below . Measurements of water sorption isotherms show a significant reduction in the water capacity of polymer electrolytes below . This reduced water content is attributed to the lower vapor pressure of ice compared to supercooled liquid water. At , 1100 equivalent weight Nafion in equilibrium with vapor over ice has of water per sulfonic acid group. Measurements of the electro-osmotic drag coefficient for Nafion and both random and multiblock copolymer sulfonated poly(arylene ether sulfone) (BPSH) chemistries are reported for vapor equilibrated samples below . The electro-osmotic drag coefficient of BPSH chemistries is found to be , and that of Nafion is . No significant temperature effect on the drag coefficient is found. The implication of an electro-osmotic drag coefficient less than unity is discussed in terms of proton conduction mechanisms. Simulations of the ohmically limited current below show that a reduced water uptake below results in a significant decrease in PEMFC performance.
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