Acetic acid-phenol steam reforming for hydrogen production: Effect of different composition of La2O3-Al2O3 support for bimetallic Ni-Co catalyst

Hydrogen production from a mixture of side products of pyrolysis oil through the catalytic steam reforming was carried out. Acetic acid and phenol were considered as side products in the bio-oil derived from the pyrolysis of biomass. The performance of bimetallic Nickel-Cobalt (Ni-Co) catalyst supported on different ratios of Lanthanum (III) Oxide (La2O3) and gamma-aluminum oxide (gamma-Al2O3) was evaluated. The catalytic properties of the prepared catalysts were characterized for the total acidity, basicity, catalyst total surface area, crystallinity and the reducibility of active metal. The results of the characterization shows that presence of gamma-Al2O3 as a support decreased the reducibility, acidic and basic site of the catalyst but increased its performance due to high surface area. By increasing the gamma-Al2O3 metal oxide content in the catalyst, the coke deposits are increased because of the weak interaction of metal-support of high gamma-Al2O3 contents catalysts. Catalyst dilution was found to increase the performance of the steam reforming reaction by changing the catalyst bed height. The results show that the similar to 100% conversion for acetic acid and 95.7% for phenol at 800 degrees C over the undiluted catalyst while 97% of phenol conversion was achieved while SiC dilution applied. (C) 2016 Elsevier Ltd. All rights reserved.