The activity of Ni-supported catalysts on silica and alumina was studied for the transformation of glycerol to lower alcohols, primarily 1-propanol and ethanol. Pressure had a small effect on glycerol conversion whereas temperature had a significant effect on conversion and selectivity. Ni/SiO(2) gave quantitative conversion of glycerol at a lower temperature compared to Ni/Al(2)O(3). Ni/SiO(2) also gave a higher selectivity to ethanol and propanol (63%) compared to Ni/Al(2)O(3) (52%) at a similar conversion. The higher activity of Ni/SiO(2) can be ascribed to its smaller crystallite size ascertained from XRD analysis. The Ni/SiO(2) catalyst also showed improved reducibility compared to Ni/Al(2)O(3). The used catalyst showed sintering of the Ni, which was confirmed by a loss of surface area and average crystallite size. The route to lower alcohols from glycerol is proposed to occur via 1,2-propanediol. Biomass is readily converted into biodiesel and glycerol and we have developed a route to convert glycerol into lower alcohols. We have therefore demonstrated that it is possible to convert biomass into biodiesel and lower alcohols (via glycerol) from the same crop, thus reducing the need to produce ethanol from a separate government-subsidised crop.

• 出版日期2011