4.8 Article

Theoretical examination of effective oxygen diffusion coefficient and electrical conductivity of polymer electrolyte fuel cell porous components

Journal

JOURNAL OF POWER SOURCES
Volume 327, Issue -, Pages 610-621

Publisher

ELSEVIER SCIENCE BV
DOI: 10.1016/j.jpowsour.2016.07.107

Keywords

PEFC; Porous electrode; FIB-SEM; X-ray CT; Gas diffusion coefficient; Electrical conductivity

Funding

  1. New Energy and Industrial Technology Development Organization (NEDO), Japan

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The reduction of oxygen transfer resistance through porous components consisting of a gas diffusion layer (GDL), microporous layer (MPL), and catalyst layer (CL) is very important to reduce the cost and improve the performance of a PEFC system. This study involves a systematic examination of the relationship between the oxygen transfer resistance of the actual porous components and their three-dimensional structure by direct measurement with FIB-SEM and X-ray CT. Numerical simulations were carried out to model the properties of oxygen transport. Moreover, based on the model structure and theoretical equations, an approach to the design of new structures is proposed. In the case of the GDL, the binder was found to obstruct gas diffusion with a negative effect on performance. The relative diffusion coefficient of the MPL is almost equal to that of the model structure of particle packing. However, that of CL is an order of magnitude less than those of the other two components. Furthermore, an equation expressing the relative diffusion coefficient of each component can be obtained with the function of porosity. The electrical conductivity of MPL, which is lower than that of the carbon black packing, is considered to depend on the contact resistance. (C) 2016 Elsevier B.V. All rights reserved.

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