Quantitative estimation of water vapor distribution in low-humidity proton exchange membrane fuel cell using humidity test paper

摘要

To prevent performance degradation due to membrane dryout in proton exchange membrane fuel cells (PEMFCs) under low-humidity conditions, fundamental understanding of water transport and reaction mechanism on anode side in operating fuel cell is required. In this study, the water vapor distribution along the anode flow channel of a low-humidity PEMFC was quantitatively evaluated by using humidity test paper (HTP), and the effects of inlet gas humidification and flow configuration on the water distribution in the anode were investigated. HTP is a test paper for detecting water vapor in the range of 20-90% RH, and makes it possible to directly visualize the water distribution in the gas flow channel of the transparent PEMFC during operation. Furthermore, the locally resolved current density was also measured using segmented cell structure concept. It was found that the high humidification of the anode inlet gas increases the water vapor concentration in the anode channel and prevents the membrane dehydration. In addition, the counter-flow configuration effectively improves the water management near the anode inlet region of the low-humidity PEMFC and enhances the proton conductivity in the electrolyte membrane.