Components for PEM fuel cell systems using hydrogen and CO containing fuels

J. Divisek; H. F. Oetjen; V. Peinecke; V. M. Schmidt; U. Stimming

doi:10.1016/S0013-4686(98)00140-6

Components for PEM fuel cell systems using hydrogen and CO containing fuels

J. Divisek, H. F. Oetjen, V. Peinecke, V. M. Schmidt, U. Stimming

Department of Physics

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

182 Scopus citations

Abstract

Proton exchange membrane fuel cells (PEMFC) show a significant performance drop in CO containing hydrogen as fuel gas in comparison to pure hydrogen. The lower performance is due to CO adsorption at the anode thus poisoning the hydrogen oxidation reaction. Two approaches to improve the cell performance are discussed. First, the use of improved electrocatalysts for the anode, such as PtRu alloys, can significantly enhance the CO tolerance. On the other hand, CO poisoning of the anode could be avoided by the use of non-electrochemical methods. For example, the addition of liquid hydrogen peroxide to the humidification water of the cell leads to the formation of active oxygen by decomposition of H₂O₂ and the oxidation of CO. In such a way a complete recovery of the CO free cell performance is achieved for H₂/100 ppm CO.

Original language	English
Pages (from-to)	3811-3815
Number of pages	5
Journal	Electrochimica Acta
Volume	43
Issue number	24
DOIs	https://doi.org/10.1016/S0013-4686(98)00140-6
State	Published - 21 Aug 1998

Keywords

CO poisoning
CO removal
HO addition
Proton exchange membrane fuel cell (PEMFC)
PtRu annodes

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10.1016/S0013-4686(98)00140-6

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title = "Components for PEM fuel cell systems using hydrogen and CO containing fuels",

abstract = "Proton exchange membrane fuel cells (PEMFC) show a significant performance drop in CO containing hydrogen as fuel gas in comparison to pure hydrogen. The lower performance is due to CO adsorption at the anode thus poisoning the hydrogen oxidation reaction. Two approaches to improve the cell performance are discussed. First, the use of improved electrocatalysts for the anode, such as PtRu alloys, can significantly enhance the CO tolerance. On the other hand, CO poisoning of the anode could be avoided by the use of non-electrochemical methods. For example, the addition of liquid hydrogen peroxide to the humidification water of the cell leads to the formation of active oxygen by decomposition of H2O2 and the oxidation of CO. In such a way a complete recovery of the CO free cell performance is achieved for H2/100 ppm CO.",

keywords = "CO poisoning, CO removal, HO addition, Proton exchange membrane fuel cell (PEMFC), PtRu annodes",

author = "J. Divisek and Oetjen, {H. F.} and V. Peinecke and Schmidt, {V. M.} and U. Stimming",

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T1 - Components for PEM fuel cell systems using hydrogen and CO containing fuels

AU - Divisek, J.

AU - Oetjen, H. F.

AU - Peinecke, V.

AU - Schmidt, V. M.

AU - Stimming, U.

PY - 1998/8/21

Y1 - 1998/8/21

N2 - Proton exchange membrane fuel cells (PEMFC) show a significant performance drop in CO containing hydrogen as fuel gas in comparison to pure hydrogen. The lower performance is due to CO adsorption at the anode thus poisoning the hydrogen oxidation reaction. Two approaches to improve the cell performance are discussed. First, the use of improved electrocatalysts for the anode, such as PtRu alloys, can significantly enhance the CO tolerance. On the other hand, CO poisoning of the anode could be avoided by the use of non-electrochemical methods. For example, the addition of liquid hydrogen peroxide to the humidification water of the cell leads to the formation of active oxygen by decomposition of H2O2 and the oxidation of CO. In such a way a complete recovery of the CO free cell performance is achieved for H2/100 ppm CO.

AB - Proton exchange membrane fuel cells (PEMFC) show a significant performance drop in CO containing hydrogen as fuel gas in comparison to pure hydrogen. The lower performance is due to CO adsorption at the anode thus poisoning the hydrogen oxidation reaction. Two approaches to improve the cell performance are discussed. First, the use of improved electrocatalysts for the anode, such as PtRu alloys, can significantly enhance the CO tolerance. On the other hand, CO poisoning of the anode could be avoided by the use of non-electrochemical methods. For example, the addition of liquid hydrogen peroxide to the humidification water of the cell leads to the formation of active oxygen by decomposition of H2O2 and the oxidation of CO. In such a way a complete recovery of the CO free cell performance is achieved for H2/100 ppm CO.

KW - CO poisoning

KW - CO removal

KW - HO addition

KW - Proton exchange membrane fuel cell (PEMFC)

KW - PtRu annodes

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JO - Electrochimica Acta

JF - Electrochimica Acta

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ER -

Components for PEM fuel cell systems using hydrogen and CO containing fuels

Abstract

Keywords

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