The catalytic activity of nano-sized x% Ni/Ce0.74Zr0.26O2 (x = 0, 2, 10 and 20wt%) catalysts have been investigated to develop highly active catalysts for ethanol steam reforming (ESR) into hydrogen. The structure and surface properties of the catalysts were tested by XRD, TPR, HRTEM and BET surface areas. The effect of reaction temperature from 200 degrees C to 600 degrees C was studied in a flow system at atmospheric pressure with an ethanol/water molar ratio of 1 : 8. Selectivity was calculated for the catalytic products H-2, CO, CO2 and CH4, as well as the intermediates C2H6, C2H4, C3H8, CH3CHO and CH3COCH3, at different reaction temperatures. It was found that complete conversion of ethanol with considerable amounts of H-2 was obtained at 400 degrees C over all catalysts. H-2 was produced at a very low temperature (200 degrees C) over 10% and 20% Ni loadings, while a maximum H-2 selectivity (75%) is reached at 600 degrees C over the 2% Ni/Ce0.74Zr0.26O2 catalyst; this is most likely due to the small nickel particle size (2-4 nm) in 2%Ni, which results in enhancement of the metal-support interactions. Thermal decomposition of ethanol in an ethanol/water mixture under the same reaction conditions, but in the absence of catalyst, was also studied. HRTEM of the spent catalyst (8 h ESR) shows the deposition of carbon in the form of carbon nanotubes (CNTs).
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