Authors
R-J Liu, PA Crozier, CM Smith, DA Hucul, J Blackson, G Salaita
Publication date
2005/3/30
Journal
Applied Catalysis A: General
Volume
282
Issue
1-2
Pages
111-121
Publisher
Elsevier
Description
We have investigated the role of different Pd sintering mechanisms on the regeneration process for alumina supported Pd hydrogenation catalysts. The Pd sintering mechanisms are strongly influenced by the catalyst morphology. In the case of fresh catalyst, Pd particles sit directly on the alumina surface and sintering occurs via a traditional ripening and coalescence mechanisms and was significant only at 600°C or above. For the used catalyst, Pd particles are supported mostly on green oil residue and this dramatically changed the sintering mechanism during the regeneration process. Catalytic gasification of green oil residue around the Pd particles in an oxidizing environment permits movement and coalescence to take place at relatively low temperatures. During the stripping, Pd particles are passively brought into contact as hydrocarbon is gasified and the exothermic nature of the process raises the …
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RJ Liu, PA Crozier, CM Smith, DA Hucul, J Blackson… - Applied Catalysis A: General, 2005