Effect of preparation conditions and promoters on the structure and activity of the ammonia decomposition reaction catalyst based on nanocrystalline cobalt

[Display omitted] •Effect of preparation conditions and promoters on the properties of cobalt catalyst.•Triple promoted catalyst has the highest sintering resistance and NH3 decomposition.•Ammonia was decomposed almost completely at a temperature of 525°C. A cobalt catalyst precursor for the ammonia...

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Bibliographic Details
Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Switzerland : 1996), 2016-04, Vol.289, p.254-260
Main Authors: Czekajlo, Lukasz, Lendzion-Bielun, Zofia
Format: Article
Language:English
Subjects:
Aluminum
Ammonia
Ammonia decomposition
Calcium aluminate
Catalysts
Cobalt
Cobalt catalyst
Decomposition
Decomposition reactions
Lime
Promoters
Structure
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Summary:[Display omitted] •Effect of preparation conditions and promoters on the properties of cobalt catalyst.•Triple promoted catalyst has the highest sintering resistance and NH3 decomposition.•Ammonia was decomposed almost completely at a temperature of 525°C. A cobalt catalyst precursor for the ammonia decomposition, in the form of cobalt oxide (II and III) promoted with oxides of calcium, aluminum, and potassium, was obtained by precipitation method. The increase in the precipitation process temperature reduces the average size of Co3O4 crystallites obtained in the calcination process. The addition of alumina has a positive effect on the area of the active surface, surface stability and catalytic activity of the active form of the catalyst, namely metallic cobalt, in the ammonia decomposition reaction. The highest activity was achieved for the catalyst ZBAP1-C promoted with oxides of calcium, aluminum, and potassium, which attained the ammonia decomposition degree of approximately 100% at a temperature of 525°C. There were no changes observed in the crystalline structure of the ZBAP1-C catalyst during the “in situ” XRD studies of the ammonia decomposition at a temperature of 475°C when the nitriding potential changed.
ISSN:1385-8947
1873-3212
DOI:10.1016/j.cej.2015.12.093