Hydrogen production by the steam reforming ...
Document type :
Article dans une revue scientifique: Article original
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Title :
Hydrogen production by the steam reforming of ethanol over cobalt catalysts supported on different carbon nanostructures
Author(s) :
Lobato, Bruno [Auteur]
Ribeiro, Mauro Celso [Auteur]
Aires, Francisco J. Cadete Santos [Auteur]
Da Silva, Victor Teixeira [Auteur]
Bellot Noronha, Fabio [Auteur]
Unité de Catalyse et Chimie du Solide (UCCS) - UMR 8181
Ribeiro, Mauro Celso [Auteur]
Aires, Francisco J. Cadete Santos [Auteur]
Da Silva, Victor Teixeira [Auteur]
Bellot Noronha, Fabio [Auteur]
Unité de Catalyse et Chimie du Solide (UCCS) - UMR 8181
Journal title :
Catalysis Today
Abbreviated title :
Catal. Today
Volume number :
344
Pages :
66-74
Publication date :
2020-03-15
ISSN :
0920-5861
English keyword(s) :
Carbon nanofibers
Cobalt catalysts
Steam reforming of ethanol
Carbon nanotubes
Hydrogen production
Cobalt catalysts
Steam reforming of ethanol
Carbon nanotubes
Hydrogen production
HAL domain(s) :
Chimie/Catalyse
English abstract : [en]
In this work, we studied the performance of Co catalysts supported on different carbonaceous structures (activated carbon, carbon nanofibers and carbon nanotubes) for the steam reforming of ethanol at 773 K. Co supported ...
Show more >In this work, we studied the performance of Co catalysts supported on different carbonaceous structures (activated carbon, carbon nanofibers and carbon nanotubes) for the steam reforming of ethanol at 773 K. Co supported on activated carbon and carbon nanofiber exhibited the smallest Co particle size and the highest activity. All catalysts deactivated but the loss of activity depended on the carbon structure. Co/C and Co/CNT catalysts significantly deactivated, while only a slight decrease in activity was observed for Co/CNF. TG analysis did not detect the formation of carbon deposits. In situ XANES and EXAFS showed that Co was partially oxidized after reduction at 623 K and the catalyst was further reduced during reaction, which rules out the oxidation of the metallic particles as the reason for catalyst deactivation. TEM of the fresh and spent catalyst showed a significant growth of the particles for Co/C and Co/CNT, indicating that sintering is the main cause of catalyst deactivation. Co/CNF only slightly deactivated because Co sintering extent was low.Show less >
Show more >In this work, we studied the performance of Co catalysts supported on different carbonaceous structures (activated carbon, carbon nanofibers and carbon nanotubes) for the steam reforming of ethanol at 773 K. Co supported on activated carbon and carbon nanofiber exhibited the smallest Co particle size and the highest activity. All catalysts deactivated but the loss of activity depended on the carbon structure. Co/C and Co/CNT catalysts significantly deactivated, while only a slight decrease in activity was observed for Co/CNF. TG analysis did not detect the formation of carbon deposits. In situ XANES and EXAFS showed that Co was partially oxidized after reduction at 623 K and the catalyst was further reduced during reaction, which rules out the oxidation of the metallic particles as the reason for catalyst deactivation. TEM of the fresh and spent catalyst showed a significant growth of the particles for Co/C and Co/CNT, indicating that sintering is the main cause of catalyst deactivation. Co/CNF only slightly deactivated because Co sintering extent was low.Show less >
Language :
Anglais
Audience :
Internationale
Popular science :
Non
Administrative institution(s) :
CNRS
Centrale Lille
ENSCL
Univ. Artois
Université de Lille
Centrale Lille
ENSCL
Univ. Artois
Université de Lille
Collections :
Research team(s) :
Valorisation des alcanes et de la biomasse (VAALBIO)
Submission date :
2022-03-02T07:14:29Z