Abstract
A series of Ce1−xCoxO2−y precursors were prepared by homogeneous precipitation using urea as a precipitant. The Co/CeO2 catalysts obtained from the Ce1−xCoxO2−y precursors were used for the steam reforming of ethanol to produce hydrogen. Co ions could enter the CeO2 lattices to form Ce1−xCoxO2−y mixed oxides at x ≤ 0.2 using the homogeneous precipitation (hp) method. CeO2 was an excellent support for Co metal in the steam reforming of ethanol because a strong interaction between support and metal (SISM) exists in the Co/CeO2 catalysts. Because Co/CeO2 (hp) prepared by homogeneous precipitation possessed a high BET surface area and small Co metal particles, Co/CeO2 (hp) showed a higher ethanol conversion than the Co/CeO2 catalysts prepared using the co-precipitation (cp) method and the impregnation (im) method. The selectivity of CO2 over Co/CeO2 (hp) increased with increasing reaction temperature at from 573 to 673 K, and decreased with increasing reaction temperature above 673 K due to the increase of CO formation. The carbonaceous deposits formed on the catalyst surface during the reaction caused a slow deactivation in the steam reforming of ethanol over Co/CeO2 (hp). The catalytic activity of the used catalysts could be regenerated by an oxidation-reduction treatment, calcined in air at 723 K and then reduced by H2 at 673 K.
Highlights
Biomass-derived ethanol is a renewable fuel because it can be produced by fermentation of biomass, such as starch, sugar, crop wastes, and so on
Hydrogen can be produced by the steam reforming of ethanol (Equation (1)) and this reaction can be used in fuel cell systems [1,2,3]
The solid-phase crystallization (SPC) method using multireported as an excellent method for preparing Cu/ZnAlO catalyst in the steam reforming of methanol component precursors is an effective method for synthesizing highly active metal-supported and the gas-shift reaction [26,27]
Summary
Biomass-derived ethanol (so-called as bio-ethanol) is a renewable fuel because it can be produced by fermentation of biomass, such as starch, sugar, crop wastes, and so on. The synthesis method greatly influences usually to be used for preparing CeO2-supported metal catalysts in the steam reforming of ethanol. The solid-phase crystallization (SPC) method using multireported as an excellent method for preparing Cu/ZnAlO catalyst in the steam reforming of methanol component precursors is an effective method for synthesizing highly active metal-supported and the gas-shift reaction [26,27]. We have used the concept of SPC method to prepare active catalysts for some important precursors by the homogeneous precipitation for the steam reforming of ethanol to produce reactions [29,30,31,32,33,34,35,36,37,38]. Precursors by the homogeneous precipitation for the steam reforming of ethanol to produce hydrogen
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