Oscillations in gas channels. Part I. The forgotten player in impedance spectroscopy in PEFCs
Oscillations in gas channels. Part I. The forgotten player in impedance spectroscopy in PEFCs
Our experimental results shown here disprove that finite diffusion can generally be assumed in ac impedance models for H-2/air-polymer electrolyte fuel cells (PEFCs) to account for the diffusive transport of oxygen through the gas diffusion layer (GDL) toward the air electrode. It is shown that the amplitude of the oxygen concentration oscillation created as a consequence of superimposed ac current at the air electrode is not zero at the channel/GDL interface but extends into the gas channels, at least below modulation frequencies of f(mod)=10 Hz. By this, sinusoidal oxygen-concentration oscillations within the cathode gas channels are excited locally along the flow field. Due to the forced air convection in the cathode flow-field channels, a coupling via the gas phase occurs downstream of the flow field. The coupling strongly affects the local and by this the overall impedance response of the cell and evokes the formation of a low-frequency arc in H-2/air-PEFC impedance spectra. Based on the experimental results, a qualitative model is presented explaining the local impedance response of a segmented 200 cm(2) H-2/air PEFC
B383-B388
Schneider, Ingo A.
ed3d4a85-4bf4-448c-a1a6-b42c0979b197
Freunberger, Stefan
9e246010-6c3b-425f-a1b5-617285ccdcfb
Kramer, Denis
1faae37a-fab7-4edd-99ee-ae4c30d3cde4
Wokaun, Alexander
54ef9f9a-9751-4ce5-8dc0-2a6cc998f474
Scherer, Günther G.
56ef4270-8ab3-4836-b50a-2647c6d9d2cc
9 February 2007
Schneider, Ingo A.
ed3d4a85-4bf4-448c-a1a6-b42c0979b197
Freunberger, Stefan
9e246010-6c3b-425f-a1b5-617285ccdcfb
Kramer, Denis
1faae37a-fab7-4edd-99ee-ae4c30d3cde4
Wokaun, Alexander
54ef9f9a-9751-4ce5-8dc0-2a6cc998f474
Scherer, Günther G.
56ef4270-8ab3-4836-b50a-2647c6d9d2cc
Schneider, Ingo A., Freunberger, Stefan, Kramer, Denis, Wokaun, Alexander and Scherer, Günther G.
(2007)
Oscillations in gas channels. Part I. The forgotten player in impedance spectroscopy in PEFCs.
Journal of the Electrochemical Society, 154 (4), .
(doi:10.1149/1.2435706).
Abstract
Our experimental results shown here disprove that finite diffusion can generally be assumed in ac impedance models for H-2/air-polymer electrolyte fuel cells (PEFCs) to account for the diffusive transport of oxygen through the gas diffusion layer (GDL) toward the air electrode. It is shown that the amplitude of the oxygen concentration oscillation created as a consequence of superimposed ac current at the air electrode is not zero at the channel/GDL interface but extends into the gas channels, at least below modulation frequencies of f(mod)=10 Hz. By this, sinusoidal oxygen-concentration oscillations within the cathode gas channels are excited locally along the flow field. Due to the forced air convection in the cathode flow-field channels, a coupling via the gas phase occurs downstream of the flow field. The coupling strongly affects the local and by this the overall impedance response of the cell and evokes the formation of a low-frequency arc in H-2/air-PEFC impedance spectra. Based on the experimental results, a qualitative model is presented explaining the local impedance response of a segmented 200 cm(2) H-2/air PEFC
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Published date: 9 February 2007
Organisations:
Engineering Mats & Surface Engineerg Gp
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Local EPrints ID: 189827
URI: http://eprints.soton.ac.uk/id/eprint/189827
ISSN: 0013-4651
PURE UUID: 527cb69f-3bfb-494c-9231-09d838a13228
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Date deposited: 14 Jun 2011 10:26
Last modified: 14 Mar 2024 03:36
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Author:
Ingo A. Schneider
Author:
Stefan Freunberger
Author:
Alexander Wokaun
Author:
Günther G. Scherer
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