Role of Pd on Cu/HZSM-5 for selective catalytic reduction of nitric oxide using n-octane under severe condition

Abstract

The effect of palladium on the activity and stability of Cu/HZSM-5 catalysts for selective catalytic reduction of NO by n-octane under severe condition has been studied. Cu/HZSM-5 catalyst is easily deactivated at high temperature, especially in steam. Loss of activity and stability on hydrothermal treatment is due to framework dealumination of the zeolite, which causes migration of Cu2+ to inactive site. The Pd modification of the Cu/HZSM-5 resulted in improved stability against the hydrothermal treatment with the presence of Pd loading amount approximately 0.3 wt.% From XRD, 27A1-NMR, TEM and ESR results it reveals that Pd2+ ion exchanged Cu/HZSM-5 inhibits the dealumination, the migration of Cu2+ and the agglomeration of metal oxide, stabilizes most of the active Cu2+ species and allows the catalyst to retain high activity and N2 selective under severe condition.