Effect of samarium on methanation resistance of activated carbon supported ruthenium catalyst for ammonia synthesis
来源期刊:JOURNAL OF RARE EARTHS2010年第4期
论文作者:周春晖 祝一锋 刘化章
文章页码:552 - 555
摘 要:The effects of samarium(Sm) on carbon-methanation and catalytic activity of the Ba-Ru-K/AC (active carbon) catalyst for ammonia synthesis were investigated. The addition of samarium improved significantly the activity and stability of the catalyst. The results of temperature-programmed desorption (H2-TPD) and in-situ-TPSR FTIR indicated that samarium impeded the adsorption of hydrogen on the catalyst surface, thus leading to the high catalytic activity and resistance to carbon-methanation. XRD patterns reveal that the promoter samarium was in the form of both samarium oxide and carbonide (Sm2C1–x). The formation of Sm2C1–x was probably due to the interaction of samarium with the unsaturated bond of carbon on the surface of active carbon, and thus hindered the carbon-methanation.
周春晖1,祝一锋1,2,刘化章1
1. State Key Laboratory Breeding Base of Green-Chemistry Synthesis Technology, College of Chemical Engineering and Materials Science, Zhejiang University of Tech-nology2. Zhexi College of Zhejiang University of Technology
摘 要:The effects of samarium(Sm) on carbon-methanation and catalytic activity of the Ba-Ru-K/AC (active carbon) catalyst for ammonia synthesis were investigated. The addition of samarium improved significantly the activity and stability of the catalyst. The results of temperature-programmed desorption (H2-TPD) and in-situ-TPSR FTIR indicated that samarium impeded the adsorption of hydrogen on the catalyst surface, thus leading to the high catalytic activity and resistance to carbon-methanation. XRD patterns reveal that the promoter samarium was in the form of both samarium oxide and carbonide (Sm2C1–x). The formation of Sm2C1–x was probably due to the interaction of samarium with the unsaturated bond of carbon on the surface of active carbon, and thus hindered the carbon-methanation.
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