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

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

doi:10.1149/2.0751412jes

reviewJournal of The Electrochemical SocietyJan 1, 2014BRONZE OA

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

AZAdam Z. Weber RLRodney L. Borup RMRobert M. Darling PKProdip K. Das TJThomas J. Dursch

Lawrence Berkeley National Laboratory · Los Alamos National Laboratory · +10 more institutions

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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…

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570

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Authors

15

Topics & keywords

Topics

Keywords

Electrolyte
Transport phenomena
Fuel cells
Ionomer
Nanotechnology
Computer science
Multiscale modeling
Durability

UN Sustainable Development Goals

Affordable and clean energy

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