Abstract
A pellet catalyst was prepared to be used in a large-scale steam methane reformer. Hydrotalcite powder (MG30) was used as a precursor to prepare MgAl2O4 pellet supports at different calcination temperatures. Ni-supported catalysts with egg-shell-type distribution were prepared on these pellet supports: Ni/sup-x (where x is the calcination temperature of the support with x = 1273, 1373, and 1473 K). Among them, Ni/sup-1473, which experienced the highest calcination temperature (1473 K), showed the highest methane conversion and lowest weight loss owing to carbon deposition. As a result, when the calcination temperature increased, the egg-shell thickness decreased, and the reducibility of the catalyst was enhanced. Although a small amount of Ni (3.5 wt%) was used, the egg-shell-type catalyst had superior catalytic activity and coke resistance. Therefore, the egg-shell-type catalyst using Ni as the active material and MgAl2O4 calcined at high temperature as the support is expected to be appropriate for large-scale industrial steam methane reforming reactions.
Funder
National Research Foundation of Korea
Subject
Physical and Theoretical Chemistry,Catalysis,General Environmental Science
Reference40 articles.
1. Keeling, C.D., Piper, S.C., Bacastow, R.B., Wahlen, M., Whorf, T.P., Heimann, M., and Meijer, H.A. (2005). A History of Atmospheric CO2 and Its Effects on Plants, Animals, and Ecosystems, Springer.
2. A comparative technoeconomic analysis of renewable hydrogen production using solar energy;Energy Environ. Sci.,2016
3. Thermodynamic analysis of energy efficiency in catalytic reforming;Energy,1980
4. Hydrogen production by thermo catalytic decomposition of methane on Ni-based catalysts: Influence of operating conditions on catalyst deactivation and carbon characteristics;Int. J. Hydrogen Energy,2005
5. Catalyst deactivation;Catal. Today,1999
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