Dry reforming of methane on Ni–Mg–Al nano-spheroid oxide catalysts prepared by the sol–gel method from hydrotalcite-like precursors

Dry reforming of methane on Ni–Mg–Al nano-spheroid oxide catalysts prepared by the sol–gel method from hydrotalcite-like precursors

•Nanospheric structures of mixed oxides were generated from Ni–Mg–Al layered double hydroxides.•The higher the calcining temperature of Ni–Mg–Al layered double hydroxides, the lower was the carbon deposition rate during DRM.•The amorphous carbon formed by the best catalyst was not prejudicial to the...

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Bibliographic Details
Published in:Applied surface science Vol. 280; pp. 876 - 887
Main Authors: González, Albert R., Asencios, Yvan J.O., Assaf, Elisabete M., Assaf, José M.
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 01-09-2013
Elsevier
Subjects:
Catalysis
Catalysts
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Condensed matter: structure, mechanical and thermal properties
Cross-disciplinary physics: materials science; rheology
Dry reforming of methane
Drying
Exact sciences and technology
Methane
Mixed oxides
Nanocapsular hydrotalcites
Nanostructure
Nickel
Physics
Sol gel process
Sol–gel method
Nanocapsular hydrotalcites
Sol–gel method
Dry reforming of methane
Nickel
Catalysts
Sol―gel method
Sol-gel process
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Summary:•Nanospheric structures of mixed oxides were generated from Ni–Mg–Al layered double hydroxides.•The higher the calcining temperature of Ni–Mg–Al layered double hydroxides, the lower was the carbon deposition rate during DRM.•The amorphous carbon formed by the best catalyst was not prejudicial to the catalytic activity. Nanocapsular hydrotalcites (layered double hydroxides – LDHs) were synthesized by the sol–gel method and used as precursors of nano-structured mixed oxides containing various nickel loads (4, 15 and 19wt%). The best conditions for the preparation of LDHs were analyzed and the structures of the resulting mixed oxides were studied. The optimal nickel load and calcining conditions were optimized. Finally, the resulting catalysts were tested in the dry reforming of methane for 8h at 800°C under atmospheric pressure. These materials showed high activity and stability, and the coke deposits were minimal on the catalyst prepared under optimal conditions (19wt% nickel load and thermal treatment at 650°C). The best catalyst formed amorphous carbon, which seems not to be prejudicial to the reaction.
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ISSN:0169-4332
1873-5584
DOI:10.1016/j.apsusc.2013.05.082