Jiyong Joo, Jae Kwang Lee, Y. Kwon, C. R. Jung, Eon Soo Lee, Jae Hyuk Jang,H. J. Lee, Sunghyun Uhm, Jaeyoung Lee

Fuel Cells (2009)

DOI: 10.1002/fuce.200900026

Jongpil Choi, Eon-Soo Lee, Jae-Huk Jang, Young Ho Seo and Byeonghee Kim

World Academy of Science, Engineering and Technology (2009)

Vol:32 2009-08-20

Polymer electrolyte membrane (PEM) fuel cells incorporating microchannels (D < 500μm) can benefit from improved fuel delivery and convective cooling. However, this requires a better understanding of two-phase microchannel transport phenomena, particularly liquid–gas interactions and liquid clogging in cathode air-delivery channels. This paper develops optical fluorescence imaging of water films in hydrophilic channels with varying air velocity and water injection rate. Micromachined silicon test structures with optical access and ...

Microchannels (0.05–1 mm) improve gas routing in proton exchange membrane fuel cells, but add to the complexities of water management. This work microfabricates experimental structures with distributed water injection as well as with heating and temperature sensing capabilities to study water formation and transport. The samples feature optical access to allow visualization and distributed thermometry for investigation of two-phase flow transport phenomena in the microchannels. The temperature evolution along the channel is observed that the temperature downstream of the distributed water injection decreases as the pressure drop increases.