Partial oxidation of methane over Rh/supported-ceria catalysts: Effect of catalyst reducibility and redox cycles

Partial oxidation of methane (POM) was studied over Rh/(Ce 0.56Zr 0.44)O 2− x , Rh/(Ce 0.91Gd 0.09)O 2− x , Rh/(Ce 0.71Gd 0.29)O 2− x and Rh/(Ce 0.88La 0.12)O 2− x . The effect of catalyst reducibility and redox cycles was investigated. It was found that the type of doped-ceria support and its reduc...

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Bibliographic Details
Published in:International journal of hydrogen energy 2008-06, Vol.33 (11), p.2695-2703
Main Authors: Salazar-Villalpando, Maria D., Berry, David A., Gardner, Todd H.
Format: Article
Language:English
Subjects:
03 NATURAL GAS
ADSORPTION HEAT
Alternative fuels. Production and utilization
Applied sciences
CARBON
CATALYSTS
Ceria
CHEMISORPTION
Energy
Exact sciences and technology
Fuels
Hydrogen
IONIC CONDUCTIVITY
METHANE
MORPHOLOGY
OXIDATION
Partial oxidation of methane
PENTACENE
PRODUCTION
Redox cycles
Reducibility
Rhodium
SILICON
SORPTIVE PROPERTIES
SURFACE AREA
X-RAY DIFFRACTION
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Summary:Partial oxidation of methane (POM) was studied over Rh/(Ce 0.56Zr 0.44)O 2− x , Rh/(Ce 0.91Gd 0.09)O 2− x , Rh/(Ce 0.71Gd 0.29)O 2− x and Rh/(Ce 0.88La 0.12)O 2− x . The effect of catalyst reducibility and redox cycles was investigated. It was found that the type of doped-ceria support and its reducibility played an important role in catalyst activity. It was also observed that redox cycles had a positive influence on H 2 production, which was enhanced as the number of redox cycle increased. Results of carbon formation are discussed as a function of ionic conductivity. Temperature programmed reduction (TPR) profiles, BET surface area, ionic conductivity and XRD patterns were determined to characterize catalysts. Catalytic tests revealed that of the materials tested, Rh/(Ce 0.56Zr 0.44)O 2− x was the most active material for the production of syngas, which correlates with its TPR profile. It was observed that doping CeO 2 with Zr, rather than with La or Gd caused an enhanced reducibility of Rh/supported-ceria catalysts.
ISSN:0360-3199
1879-3487
DOI:10.1016/j.ijhydene.2008.03.016