Catalysis Today, Vol.265, 111-117, 2016
Highly active and stable Co/La0.7Sr0.3AlO3-delta catalyst for steam reforming of toluene
We investigated steam reforming of toluene as a model compound of aromatic hydrocarbons included in biomass tar over Co supported Co/La0.7Sr0.3AlO3-delta (LSAO), perovskite oxide. Ni-supported LSAO catalyst has shown high activity and coke resistance from the redox property of lattice oxygen in/on the LSAO support. Co is known as an active metal for this reaction, so Co/LSAO catalyst was investigated in this work. Co/LSAO catalyst, which showed high steady-state activity and stability, was characterized using (H2O)-O-18 isotopic transient response tests, STEM, FT-IR, Arrhenius plot and partial pressure dependence to elucidate high and stable catalytic activity. In situ FT-IR measurements revealed that reaction intermediates on Co/LSAO desorbed at 873 K or lower temperatures. Although redox property of lattice oxygen did not change at around 848 K based on isotopic transient tests, the Arrhenius plots indicate that the rate-determining step changed at around 848 K because of reaction intermediate decomposition desorption. Fast reaction and desorption of absorbed intermediates on Co/LSAO enable catalytic stability during toluene steam reforming. (C) 2015 Elsevier B.V. All rights reserved.
Keywords:Perovskite oxide;Steam reforming of toluene;Co catalyst;Hydrogen production;Surficial adsorption property;Stable catalytic activity