Selective production of hydrogen by steam reforming of bio-ethanol

Abstract

Experimental results of catalytic activity, selectivity and coking phenomenon on co-precipitated cobalt catalysts with the ZnO–Al 2O 3 support in the steam reforming of ethanol (SRE) are reported. The influence of the cobalt active phase content (9–41 wt.%) and the reaction temperature (350–600 °C) was the point at issue. From the point of view of activity and selectivity, temperatures 420 °C and higher favoured steam reforming of ethanol on supported cobalt catalysts. At these temperatures the conversion of ethanol reached 100%, simultaneously the hydrogen yield achieved the level of above 5 mol of H 2 formed from 1 mol of EtOH introduced to the reaction, as well as the selectivity of carbon monoxide formation was depressed to 2–3%. However, taking into account possibility of coking of catalysts, the optimum temperature of the SRE is 420 °C. The catalyst containing 24 wt.% of cobalt was the most effective one. The obtained results are very important in the aspect of electricity generation in fuel cells feed with a reformate gas.