Methane oxidation over nanocrystalline Ce0.45Zr0.45La0.10O2-delta/Pt and Ce0.9Sm0.1O2-delta/Pt anodes

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abstract

The electrocatalytic activity of composite anodes, comprising metallic platinum and nanocrystalline Pt-modified Ce0.45Zr0.45La0.10O2-delta and Ce0.9Sm0.1O2-delta , was evaluated for the oxidation of dry methane in a solid oxide fuel cell (SOFC) - type reactor with yttria-stabilized zirconia solid electrolyte. At 923-1073 K, the total combustion is dominant, whilst above 1100 K the composite anodes exhibit significant catalytic activity towards the partial oxidation of methane (POM). At 1223 K and for a O-2:CH4 ratio equal to 0.5, stoichiometric for the POM reaction, CO selectivity and CH4 conversion over Ce0.9Sm0.1O2-delta /Pt achieves 55% and 41%, respectively. Under these conditions, Ce0.45Zr0.45La0.10O2-delta /Pt anodes possess higher catalytic activity for partial oxidation, associated with the lower lattice oxygen mobility and instability of the Ce0.45Zr0.45La0.10O2-delta cubic fluorite structure, and provide 54% conversion efficiency with 73% selectivity to carbon monoxide. Further increase in CH4 conversion and CO selectivity can be achieved by packing the reactor with an additional catalyst, such as Pt-promoted Ce0.45Zr0.45La0.10O2-delta or LaNiO3-delta / Al2O3 .

keywords

OXIDE FUEL-CELLS; DOPED CERIA; OXYGEN MOBILITY; LATTICE OXYGEN; SYNTHESIS GAS; MIXED OXIDES; SOFC ANODES; SYNGAS; CATALYSTS; NI

subject category

Chemistry

authors

Yaremchenko, AA; Kharton, VV; Valente, AA; Frolova, EV; Ivanovskaya, MI; Kovalevsky, AV; Marques, FMB; Rocha, J

our authors

foto Aleksey Yaremchenko

Aleksey Yaremchenko

Principal Researcher
foto Anabela Tavares Aguiar Valente

Anabela Tavares Aguiar Valente

Principal Researcher
foto Andrei Kavaleuski

Andrei Kavaleuski

Principal Researcher
foto Fernando Manuel Bico Marques

Fernando Manuel Bico Marques

Full professor
foto João Rocha

João Rocha

Full Professor
foto Vladislav Kharton

Vladislav Kharton

Invited Principal Researcher

Groups

G1 - Porous Materials and Nanosystems
G3 - Electrochemical Materials, Interfaces and Coatings
G4 - Renewable Materials and Circular Economy

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Publication Details

type
Journal Article
year
2006
journal
CATALYSIS LETTERS
volume
112
publisher
SPRINGER
issn
1011-372X
issue
1-2
digital object identifier
10.1007/s10562-006-0158-z
web of science article identifier
WOS:000242657300003

Journal Metrics (JCR 2019)

Journal Impact Factor
2.482
Journal Impact Factor (5 yrs)
2.555
category normalized journal percentile
43.082

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