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Anisotropic, effective diffusivity of porous gas diffusion layer materials for PEFC

Anisotropic, effective diffusivity of porous gas diffusion layer materials for PEFC
Anisotropic, effective diffusivity of porous gas diffusion layer materials for PEFC
A comparative, experimental diffusivity study of gas diffusion layer (GDL) materials for polymer electrolyte fuel cells (PEFC) is presented for the first time. The GDL plays an important role for electrochemical losses due to gas transport limitations at high current densities. Characterization and optimization of these layers is therefore essential to improve power density. A recently developed method which allows for fast diffusimetry is applied and data compared to the literature values. Measurements are made as a function of direction and compression and the effect of different binder structures and hydrophobic treatments on effective diffusivities are discussed. A better understanding of the results is gained by including novel GDL cross-section images and a meaningful unit cell model for the interpretation of the data. The diffusivity data is valuable for GDL manufacturers and future PEFC models. The study reveals that a binder-fiber ratio larger than 50% has a negative impact on the effective diffusion properties. The hydrophobic treatment which is necessary to improve the water management can impede diffusion and thus reduce the power density. Furthermore binder has an isotropic effect while compression pronounces the in-plane orientation of the fibers.
pefc, gas diffusion layer, effective diffusivity, electrochemical diffusimetry, unit cell model
0013-4686
551-559
Fückiger, Reto
f93a604d-7fc8-487a-9db1-4f63b93d9981
Freunberger,
a0348c04-e558-4269-866b-060d7952ba29
Kramer, Denis
1faae37a-fab7-4edd-99ee-ae4c30d3cde4
Wokaun, Alexander
54ef9f9a-9751-4ce5-8dc0-2a6cc998f474
Scherer, Günther .
2e667c04-cf06-4be8-8f2d-9a380ef37e7a
Büchi, Felix N.
28f71a4e-1bfc-45b5-ad2b-59d1ccf00624
Fückiger, Reto
f93a604d-7fc8-487a-9db1-4f63b93d9981
Freunberger,
a0348c04-e558-4269-866b-060d7952ba29
Kramer, Denis
1faae37a-fab7-4edd-99ee-ae4c30d3cde4
Wokaun, Alexander
54ef9f9a-9751-4ce5-8dc0-2a6cc998f474
Scherer, Günther .
2e667c04-cf06-4be8-8f2d-9a380ef37e7a
Büchi, Felix N.
28f71a4e-1bfc-45b5-ad2b-59d1ccf00624

Fückiger, Reto, Freunberger, , Kramer, Denis, Wokaun, Alexander, Scherer, Günther . and Büchi, Felix N. (2008) Anisotropic, effective diffusivity of porous gas diffusion layer materials for PEFC. Electrochimica Acta, 54 (2), 551-559. (doi:10.1016/j.electacta.2008.07.034).

Record type: Article

Abstract

A comparative, experimental diffusivity study of gas diffusion layer (GDL) materials for polymer electrolyte fuel cells (PEFC) is presented for the first time. The GDL plays an important role for electrochemical losses due to gas transport limitations at high current densities. Characterization and optimization of these layers is therefore essential to improve power density. A recently developed method which allows for fast diffusimetry is applied and data compared to the literature values. Measurements are made as a function of direction and compression and the effect of different binder structures and hydrophobic treatments on effective diffusivities are discussed. A better understanding of the results is gained by including novel GDL cross-section images and a meaningful unit cell model for the interpretation of the data. The diffusivity data is valuable for GDL manufacturers and future PEFC models. The study reveals that a binder-fiber ratio larger than 50% has a negative impact on the effective diffusion properties. The hydrophobic treatment which is necessary to improve the water management can impede diffusion and thus reduce the power density. Furthermore binder has an isotropic effect while compression pronounces the in-plane orientation of the fibers.

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More information

Published date: 30 December 2008
Keywords: pefc, gas diffusion layer, effective diffusivity, electrochemical diffusimetry, unit cell model
Organisations: Engineering Mats & Surface Engineerg Gp

Identifiers

Local EPrints ID: 189743
URI: http://eprints.soton.ac.uk/id/eprint/189743
DOI: doi:10.1016/j.electacta.2008.07.034
ISSN: 0013-4686
PURE UUID: 1438bf3a-610f-4a08-8fd9-d09a48863e40

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Date deposited: 06 Jun 2011 13:55
Last modified: 14 Mar 2024 03:36

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Contributors

Author: Reto Fückiger
Author: Freunberger
Author: Denis Kramer
Author: Alexander Wokaun
Author: Günther . Scherer
Author: Felix N. Büchi

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