Low temperature catalytic steam reforming of ethanol. 1. The effect of the support on the activity and stability of Pt catalysts

“…It is important to remark that the SiO2 showed neither basic nor acid properties and was not active for steam reforming reaction. Thus, the present results are in good agreement with the information available in the literature suggesting that the selection of a non-acidic support is appropriate to syngas and/or hydrogen production via steam reforming reaction of several oxygenates compounds derived from biomass (Soares et al 2006;Ni et al 2007;Ciambelli et al 2010). Rosseti et al (2014) investigated ethanol steam reforming in the low temperature range, focusing not only on H2 productivity, but also on catalyst stability.…”

Effect of Active Metal Supported on SiO2 for Selective Hydrogen Production from the Glycerol Steam Reforming Reaction

“…It is important to remark that the SiO2 showed neither basic nor acid properties and was not active for steam reforming reaction. Thus, the present results are in good agreement with the information available in the literature suggesting that the selection of a non-acidic support is appropriate to syngas and/or hydrogen production via steam reforming reaction of several oxygenates compounds derived from biomass (Soares et al 2006;Ni et al 2007;Ciambelli et al 2010). Rosseti et al (2014) investigated ethanol steam reforming in the low temperature range, focusing not only on H2 productivity, but also on catalyst stability.…”

Effect of Active Metal Supported on SiO2 for Selective Hydrogen Production from the Glycerol Steam Reforming Reaction

“…[1][2] Metal supported oxide catalysts have shown significant activity for this reaction. 1,[3][4][5][6][7][8][9][10][11][12][13][14][15] Notably, Ni-oxide based materials have emerged as promising catalysts for the ESR reaction and have been reported to exhibit activity and/or selectivity comparable to that of expensive noble metals such as Rh, Pt and Pd. [16][17][18] The behavior of ceria supported nickel nanoparticles is quite different from that of bulk Ni, a system which is very active for CO methanation and undergoes rapid deactivation by coke formation during the steam reforming process.…”

Ambient pressure XPS and IRRAS investigation of ethanol steam reforming on Ni–CeO₂(111) catalysts: an in situ study of C–C and O–H bond scission

“…К настоящему времени выполнено множество ра-бот по изучению процесса конверсии этанола в газо-вую смесь, богатую водородом [1][2][3][4][5][6][7][8][9][10][11]. Как правило, в смеси, кроме водорода, наблюдается присутствие метана, моноокиси и двуокиси углерода, а также не-прореагировавший этанол, вода и ацетальдегид.…”

A Catalyst Supporter to Lower the Carbon Monoxide Content in Ethanol Reforming