화학공학소재연구정보센터
International Journal of Hydrogen Energy, Vol.42, No.38, 24131-24141, 2017
The role of aluminum in the formation of Ni-Al-Co-containing porous ceramic converters with high activity in dry and steam reforming of methane and ethanol
The role of aluminum in the formation of Ni-Al-Co-containing porous ceramic membrane-catalytic converters (MCC) obtained by SHS method, which are high-active in dry and steam reforming of methane, ethanol and fusel alcohols into synthesis gas, was discovered. It was shown that the aluminum introduced into the charge through mechanical alloying leads to a significant increase in the catalytic activity of the converter in the studied processes, as compared to aluminum introduced by mechanical mixing. In this case, the addition of 5% aluminum to the initial nickel charge allows achieving of maximum productivity for syngas against other studied concentrations of Al. The Al content increase above the optimum leads to a significant formation of the catalytically inactive phase of Ni(3)AI intermetallide. TEM and X-ray diffraction methods show that due to oxidation-reduction phase transformations involving aluminum there occurs the formation of metal oxides on the basis of gamma-Al2O3 with the structure of spinel having nanosized Ni-Co alloy particles formed on its surface during the reductive activation stage. (C) 2017 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.