The anti-sintering catalysts: Fe-Co-Zr polymetallic fibers for CO2 hydrogenation to C-2 = -C-4 = -rich hydrocarbons

发表时间：2019-03-12

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通讯作者：: Guo, XW; Song, CS (reprint author), Dalian Univ Technol, Sch Chem Engn, PSU DUT Joint Ctr Energy Res, State Key Lab Fine Chem, Dalian 116024, Peoples R China.

合写作者：: Zhang, Anfeng,Jiang, Xiao,Janik, Michael J.,Qiu, Jieshan,Liu, Zhongmin,Guo, Xinwen,Song, Chunshan

关键字：: CO2 Hydrogenation; Fe-Co-Zr Fibers; K Promotion; C-2 =-C-4 =-Rich hydrocarbons; Metal sintering

摘要：: Polymetallic fibers of 13Fe2Co/ZrO2 and 13Fe2Co100Zr were prepared by impregnation and an in situ electrospinning technique. The iron, cobalt and zirconium components in the 13Fe2Co100Zr catalyst are more dispersed than the impregnation one, as indicated by SEM/EDS, TEM, XRD, H-2-TPR and N-2 adsorption techniques. CO2 conversion increased by a factor of 2 and the selectivity to C-2 (+) hydrocarbons increased 15 times on the 13Fe2Co100Zr polymetallic fibers compared with the 13Fe2Co/ZrO2 supported catalyst. The 0.18 s(-1) TOF (turnover frequency) of the polymetallic fibers exceeded that of the supported catalyst (0.12 s(-1)). Potassium addition to the 13Fe2Co100Zr catalyst further improved the selectivity to C-2(=)-C-4(=), which increased to 27.5% on a 10K13Fe2Co100Zr catalyst. The polymetallic fibers showed stable activity over the reaction period. The activity of the 13Fe2Co/ZrO2 catalyst, however, decreased rapidly due to metal sintering as observed with TEM and XRD. The in situ electrospinning technique can effectively prevent metal sintering and provide high CO2 conversion efficiency.