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Evaporative cooling for polymer electrolyte fuel cells - an operando analysis at technical single cell level
Striednig, M., Mularczyk, A., Liu, W., Scheuble, D., Cochet, M., Boillat, P., … Büchi, F. N. (2023). Evaporative cooling for polymer electrolyte fuel cells - an operando analysis at technical single cell level. Journal of Power Sources, 556, 232419 (10 pp.). https://doi.org/10.1016/j.jpowsour.2022.232419
A model based investigation of evaporative cooling for polymer electrolyte fuel cells - stack level analysis
Striednig, M., Cochet, M., Boillat, P., Schmidt, T. J., & Büchi, F. N. (2022). A model based investigation of evaporative cooling for polymer electrolyte fuel cells - stack level analysis. Journal of Power Sources, 517, 230706 (11 pp.). https://doi.org/10.1016/j.jpowsour.2021.230706
Novel concept for evaporative cooling of fuel cells: an experimental study based on neutron imaging
Cochet, M., Forner-Cuenca, A., Manzi, V., Siegwart, M., Scheuble, D., & Boillat, P. (2018). Novel concept for evaporative cooling of fuel cells: an experimental study based on neutron imaging. Fuel Cells, 18(5), 619-626. https://doi.org/10.1002/fuce.201700232
Dependence of current distribution on water management in PEFC of technical size
Büchi, F. N., Geiger, A. B., & Neto, R. P. (2005). Dependence of current distribution on water management in PEFC of technical size. Journal of Power Sources, 145(1), 62-67. https://doi.org/10.1016/j.jpowsour.2004.12.039
Proton-conducting polymer membranes in fuel cells - humidification aspects
Andreaus, B., & Scherer, G. G. (2004). Proton-conducting polymer membranes in fuel cells - humidification aspects. Solid State Ionics, 168(3-4), 311-320. https://doi.org/10.1016/j.ssi.2003.01.001