Effect of severe condition on activity of copper ion-exchanged MFI and cobalt-silicate in nitric oxide removal

Abstract

The effect of severity on the activity of copper ion-exchanged MFI (Cu /MFI) and cobalt-silicate (H-Co-silicate) catalysts for nitric oxide removal with n-octane in the presence of oxygen was considered. By observing the temperature pretreatment in the range of 600-1100℃, the activity of Cu /MFI decreased with an increase of pretreatment. Interestingly, the activity of H-Co-silicate increased with the pretreatment temperature. The pretreatment at 1000 ℃ was the optimum condition of H-Co-silicate enhancing NO conversion 4 times higher than that without pretreatment. The destruction of framework and loss of cobalt species were not observed on H-Co-silicate after the temperature pretreatment. Some parts of cobalt species migrated from the framework and became active sites that enhance the activity for nitric oxide removal. Furthermore. Copper ion-exchanged cobalt incorporated MFI catalyst (Cu/Co-silicate) a new catalyst was prepared to compare the activity for nitric oxide removal. Cu/Co-silicate showed higher activity for nitric oxide conversion than H-Co-silicate and better stability than Cu/MFI catalyst. Cu/co-silicate pretreated at 1000℃ exhibited similar No conversion to H-Co-silicate pretreated at 1000℃ exhibited similar No conversion to H-Co-silicate pretreated at 1000℃ It was found that the pretreatment at 1000℃ caused the decrement of amount active Cu² species for nitric oxide SCR. Accordingly, the activity of Cu/Co-silicate pretreated at 1000℃ mainly resulted from cobalt species in the catalysts. And resulting from the unstability of active Cu2+ species for nitric oxide conversion by the severe condition, the addition of Pd on Cu/MFI was carried out to investigate the performance of this catalyst for nitric oxide removal and also the presence of active Cu²+ in severe condition.