Low-temperature CO preferential oxidation in H2-rich stream over iron modified Pd–Cu/hydroxyapatite catalyst

Abstract

The effect of FeCl3 addition on the catalytic property of Pd–Cu/hydroxyapatite (Pd–Cu/HAP) for low-temperature CO preferential oxidation (CO-PROX) under H2-rich condition has been investigated. It can be found that CO conversion of Pd–Cu/HAP rapidly decreases from 56% to 21% within 2 h at 30 °C in the presence of water, however, the Pd–Cu–Fe/HAP with the Fe/Cu atomic ratio of 1:1 presents a stable CO conversion of 40% and CO2 selectivity of 100% under the same reaction conditions. The characterization results display that the addition of FeCl3 to Pd–Cu/HAP causes the formation of Fe2O3 species, and the strong interaction presents between Fe2O3 species and Pd–Cu/HAP. Thus, the Pd0 species generated during CO-PROX over Pd–Cu–Fe/HAP can be more easily oxidized than that over Pd–Cu/HAP, which could avoid H2 adsorption on Pd0 species and maintain CO adsorption and activation.