Study on SO2 Poisoning Mechanism of CO Catalytic Oxidation Reaction on Copper–Cerium Catalyst

CuO–CeO 2 (Cu–Ce) catalyst with a CuO/CeO 2 mass ratio of 1 prepared by a sol–gel method is used in the CO catalytic oxidation reaction in the actual industrial sulfur-containing atmosphere. At a reaction temperature of 200 °C, the catalyst exhibits quite different stability under sulfur-containing...

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Veröffentlicht in:Catalysis letters 2022-09, Vol.152 (9), p.2729-2737
Hauptverfasser: Li, Zhiyu, Chen, Jinding, Jiang, Man, Li, Linna, Zhang, Jingyi, Duan, Wenbiao, Wen, Junjie, Wang, Huimin, Liu, Mo, Zhang, Qiulin, Chen, Jianjun, Ning, Ping
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Sprache:eng
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Zusammenfassung:CuO–CeO 2 (Cu–Ce) catalyst with a CuO/CeO 2 mass ratio of 1 prepared by a sol–gel method is used in the CO catalytic oxidation reaction in the actual industrial sulfur-containing atmosphere. At a reaction temperature of 200 °C, the catalyst exhibits quite different stability under sulfur-containing and sulfur-free conditions. When 30 ppm SO 2 was added to the feed gas, the Cu–Ce catalyst had an initial CO conversion rate of 100%, gradually decreasing after 26 h, and this catalyst completely deactivated at about 50 h. However, the CO conversion rate of the catalyst under sulfur-free conditions could be nearly maintained at 100% within the measured time range (60 h). The results of IR, Raman, and XPS characterizations proved that the accumulation of cerium sulfate on the Cu–Ce catalyst would cover the active sites of the catalyst, eventually leading to the complete deactivation of the catalyst, which provides favorable evidence for the actual industrial anti-sulfur application. Graphical Abstract
ISSN:1011-372X
1572-879X
DOI:10.1007/s10562-021-03846-8