A Critical Review of Modeling Transport Phenomena in Polymer-Electrolyte Fuel Cells

Adam Z. Weber; Rodney L. Borup; Robert M. Darling; Prodip K. Das; Thomas J. Dursch; Wenbin Gu; David Harvey; Ahmet Kusoglu; Shawn Litster; Matthew M. Mench; Rangachary Mukundan; Jon P. Owejan; Jon G. Pharoah; Marc Secanell; Iryna V. Zenyuk

doi:10.1149/2.0751412JES

A Critical Review of Modeling Transport Phenomena in Polymer-Electrolyte Fuel Cells

Adam Z. Weber^*, Rodney L. Borup, Robert M. Darling, Prodip K. Das, Thomas J. Dursch, Wenbin Gu, David Harvey, Ahmet Kusoglu, Shawn Litster, Matthew M. Mench, Rangachary Mukundan, Jon P. Owejan, Jon G. Pharoah, Marc Secanell, Iryna V. Zenyuk

^*Corresponding author for this work

School of Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

Polymer-electrolyte fuel cells are a promising energy-conversion technology. Over the last several decades significant progress has been made in increasing their performance and durability, of which continuum-level modeling of the transport processes has played an integral part. In this review, we examine the state-of-the-art modeling approaches, with a goal of elucidating the knowledge gaps and needs going forward in the field. In particular, the focus is on multiphase flow, especially in terms of understanding interactions at interfaces, and catalyst layers with a focus on the impacts of ionomer thin-films and multiscale phenomena. Overall, we highlight where there is consensus in terms of modeling approaches as well as opportunities for further improvement and clarification, including identification of several critical areas for future research.

Original language	English
Pages (from-to)	F1254-F1299
Journal	Journal of the electrochemical society
Volume	161
Issue number	12
DOIs	https://doi.org/10.1149/2.0751412JES
Publication status	Published - 13 Sept 2014

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Weber, A. Z., Borup, R. L., Darling, R. M., Das, P. K., Dursch, T. J., Gu, W., Harvey, D., Kusoglu, A., Litster, S., Mench, M. M., Mukundan, R., Owejan, J. P., Pharoah, J. G., Secanell, M., & Zenyuk, I. V. (2014). A Critical Review of Modeling Transport Phenomena in Polymer-Electrolyte Fuel Cells. Journal of the electrochemical society, 161(12), F1254-F1299. https://doi.org/10.1149/2.0751412JES

@article{12481809956045bf878d2f187da249f1,

title = "A Critical Review of Modeling Transport Phenomena in Polymer-Electrolyte Fuel Cells",

abstract = "Polymer-electrolyte fuel cells are a promising energy-conversion technology. Over the last several decades significant progress has been made in increasing their performance and durability, of which continuum-level modeling of the transport processes has played an integral part. In this review, we examine the state-of-the-art modeling approaches, with a goal of elucidating the knowledge gaps and needs going forward in the field. In particular, the focus is on multiphase flow, especially in terms of understanding interactions at interfaces, and catalyst layers with a focus on the impacts of ionomer thin-films and multiscale phenomena. Overall, we highlight where there is consensus in terms of modeling approaches as well as opportunities for further improvement and clarification, including identification of several critical areas for future research.",

author = "Weber, {Adam Z.} and Borup, {Rodney L.} and Darling, {Robert M.} and Das, {Prodip K.} and Dursch, {Thomas J.} and Wenbin Gu and David Harvey and Ahmet Kusoglu and Shawn Litster and Mench, {Matthew M.} and Rangachary Mukundan and Owejan, {Jon P.} and Pharoah, {Jon G.} and Marc Secanell and Zenyuk, {Iryna V.}",

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Weber, AZ, Borup, RL, Darling, RM, Das, PK, Dursch, TJ, Gu, W, Harvey, D, Kusoglu, A, Litster, S, Mench, MM, Mukundan, R, Owejan, JP, Pharoah, JG, Secanell, M & Zenyuk, IV 2014, 'A Critical Review of Modeling Transport Phenomena in Polymer-Electrolyte Fuel Cells', Journal of the electrochemical society, vol. 161, no. 12, pp. F1254-F1299. https://doi.org/10.1149/2.0751412JES

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T1 - A Critical Review of Modeling Transport Phenomena in Polymer-Electrolyte Fuel Cells

AU - Weber, Adam Z.

AU - Borup, Rodney L.

AU - Darling, Robert M.

AU - Das, Prodip K.

AU - Dursch, Thomas J.

AU - Gu, Wenbin

AU - Harvey, David

AU - Kusoglu, Ahmet

AU - Litster, Shawn

AU - Mench, Matthew M.

AU - Mukundan, Rangachary

AU - Owejan, Jon P.

AU - Pharoah, Jon G.

AU - Secanell, Marc

AU - Zenyuk, Iryna V.

PY - 2014/9/13

Y1 - 2014/9/13

N2 - Polymer-electrolyte fuel cells are a promising energy-conversion technology. Over the last several decades significant progress has been made in increasing their performance and durability, of which continuum-level modeling of the transport processes has played an integral part. In this review, we examine the state-of-the-art modeling approaches, with a goal of elucidating the knowledge gaps and needs going forward in the field. In particular, the focus is on multiphase flow, especially in terms of understanding interactions at interfaces, and catalyst layers with a focus on the impacts of ionomer thin-films and multiscale phenomena. Overall, we highlight where there is consensus in terms of modeling approaches as well as opportunities for further improvement and clarification, including identification of several critical areas for future research.

AB - Polymer-electrolyte fuel cells are a promising energy-conversion technology. Over the last several decades significant progress has been made in increasing their performance and durability, of which continuum-level modeling of the transport processes has played an integral part. In this review, we examine the state-of-the-art modeling approaches, with a goal of elucidating the knowledge gaps and needs going forward in the field. In particular, the focus is on multiphase flow, especially in terms of understanding interactions at interfaces, and catalyst layers with a focus on the impacts of ionomer thin-films and multiscale phenomena. Overall, we highlight where there is consensus in terms of modeling approaches as well as opportunities for further improvement and clarification, including identification of several critical areas for future research.

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SP - F1254-F1299

JO - Journal of the electrochemical society

JF - Journal of the electrochemical society

IS - 12

ER -

A Critical Review of Modeling Transport Phenomena in Polymer-Electrolyte Fuel Cells

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