Effect of support composition and metal loading on Au/Ce1-xZrxO2 catalysts for the oxidative steam reforming of methanol

Abstract Gold (Au) deposited on CeO 2 –ZrO 2 mixed oxides, prepared by the co-precipitation (CP) technique, was tested for oxidative steam reforming of methanol (OSRM) in the temperature range of 200–400 °C. An active uniform Ce 1− x Zr x O 2 solid solution was found to be dependent on the Zr/(Ce + Zr) ratio and the calcination temperature of the support, where a ratio of 0.25 calcined at 400 °C efficiently performed Zr 4+ incorporation inside the Ce 4+ lattice to produce smaller ceria crystallites and higher surface area. The highest methanol conversion obtained was 92% at 400 °C, while H 2 and CO concentrations were observed at 16% and 0.25%, respectively. The variation in Au content significantly affected the Au particle size, where Au agglomeration appeared at the highest loading of 5 wt%, while the 3 wt% Au had optimum particle size at 21 nm, which was suitable for OSRM. When comparing the stability behaviors of the Au/CeO 2 and Au/Ce 0.75 Zr 0.25 O 2 catalysts at 350 °C, the solid solution supports had higher catalytic activity with a longer life-time and less coke formation via coke gasification, as the main factor of catalyst deactivation, than those of the Au/CeO 2 catalyst.