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Détail de l'auteur
Auteur Sumaeth Chavadej
Documents disponibles écrits par cet auteur
Affiner la recherchePlasma-catalytic reforming of methane in AC microsized gliding arc discharge / Nongnuch Rueangjitt in Chemical engineering journal, Vol. 155 N° 3 (Decembre 2009)
[article]
in Chemical engineering journal > Vol. 155 N° 3 (Decembre 2009) . - pp. 874-880
Titre : Plasma-catalytic reforming of methane in AC microsized gliding arc discharge : effects of input power, reactor thickness, and catalyst existence Type de document : texte imprimé Auteurs : Nongnuch Rueangjitt, Auteur ; Thammanoon Sreethawong, Auteur ; Sumaeth Chavadej, Auteur Année de publication : 2010 Article en page(s) : pp. 874-880 Note générale : Génie Chimique Langues : Anglais (eng) Mots-clés : Non-thermal plasma Gliding arc discharge Microreactor Methane conversion Index. décimale : 660 Résumé : A new design of a microsized gliding arc discharge reactor was preliminarily investigated for the reforming of methane to various useful products. In methane reforming by the gliding arc (GA) microreactor under ambient conditions, hydrogen and acetylene were dominantly produced, with high selectivities of not, vert, similar75% and not, vert, similar70–90%, respectively, which were much higher than those in conventional GA reactors because of the high power density and the extremely short residence time of the GA microreactor, as compared to conventional GA reactors. Small amounts of other products (including ethylene, ethane, butadiene, and coke) were also formed. The results showed that the methane conversion strongly depended on input power and reactor thickness. A Ni-loaded porous alumina-silica catalyst, prepared by wet impregnation, was used to investigate the catalytic effect on the microreactor performance for methane reforming. A considerable enhancement of methane conversion, but not hydrogen and other product selectivities, was achieved in the combined plasma-catalytic system. Furthermore, heating the surface of the Ni-loaded catalyst brought about a significant change in product selectivity, but not methane conversion.
DEWEY : 660 ISSN : 1385-8947 En ligne : http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6TFJ-4XF840K-9&_user=6 [...] [article] Plasma-catalytic reforming of methane in AC microsized gliding arc discharge : effects of input power, reactor thickness, and catalyst existence [texte imprimé] / Nongnuch Rueangjitt, Auteur ; Thammanoon Sreethawong, Auteur ; Sumaeth Chavadej, Auteur . - 2010 . - pp. 874-880.
Génie Chimique
Langues : Anglais (eng)
in Chemical engineering journal > Vol. 155 N° 3 (Decembre 2009) . - pp. 874-880
Mots-clés : Non-thermal plasma Gliding arc discharge Microreactor Methane conversion Index. décimale : 660 Résumé : A new design of a microsized gliding arc discharge reactor was preliminarily investigated for the reforming of methane to various useful products. In methane reforming by the gliding arc (GA) microreactor under ambient conditions, hydrogen and acetylene were dominantly produced, with high selectivities of not, vert, similar75% and not, vert, similar70–90%, respectively, which were much higher than those in conventional GA reactors because of the high power density and the extremely short residence time of the GA microreactor, as compared to conventional GA reactors. Small amounts of other products (including ethylene, ethane, butadiene, and coke) were also formed. The results showed that the methane conversion strongly depended on input power and reactor thickness. A Ni-loaded porous alumina-silica catalyst, prepared by wet impregnation, was used to investigate the catalytic effect on the microreactor performance for methane reforming. A considerable enhancement of methane conversion, but not hydrogen and other product selectivities, was achieved in the combined plasma-catalytic system. Furthermore, heating the surface of the Ni-loaded catalyst brought about a significant change in product selectivity, but not methane conversion.
DEWEY : 660 ISSN : 1385-8947 En ligne : http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6TFJ-4XF840K-9&_user=6 [...]