Fischer-Trospch to olefins over hydrophobic FeMnOx@SiO2 catalysts: The effect of SiO2 shell content
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作者
Li, Su; Liu, Xiaozhe; Lu, Yongwu; Lin, Tiejun; Gong, Kun; Wang, Caiqi; An, Yunlei; Yu, Fei; Zhong, Liangshu; Sun, Yuhan
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刊物名称
APPLIED CATALYSIS A-GENERAL
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年、卷、文献号
2022, 635, 0926-860X
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关键词
Li, Su; Liu, Xiaozhe; Lu, Yongwu; Lin, Tiejun; Gong, Kun; Wang, Caiqi; An, Yunlei; Yu, Fei; Zhong, Liangshu; Sun, Yuhan
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摘要
Selective conversion of syngas to olefins has aroused extensive attention while some challenges still existed such as high CO2 selectivity. Herein, a series of hydrophobic FeMnOx@SiO2-y-(CH3)(3) (y represents SiO2 weight percent of the catalyst) catalysts with various SiO2 shell content were synthesized for Fischer-Tropsch to olefins (FTO). During the activation process, high hydrophobic SiO2-coating content catalysts suppressed the reduction/carburization of iron species to iron carbide. During FTO reaction, iron carbide of low hydrophobic SiO2-coating content catalysts was re-oxidized while it was stabilized for high hydrophobic SiO2-coating content catalysts. The trade-off among CO2, CH4 selectivity and SiO2-coating content was reflected as an increasing trend relationship, while olefins selectivity exhibited a decreasing trend. Additionally, a desirable hydrophobic SiO2-coating (8.2 wt %) catalyst apparently suppressed CO2 formation (4.7 C%) with high olefins selectivity (54.6 C%) at CO conversion of 50.7%. This study provides an efficient approach to inhibit CO2 formation of Fe-based FTO catalyst.
