The effect of SiO_2 particle size on iron based F–T synthesis catalysts 被引量：2

The effect of SiO_2 particle size on iron based F–T synthesis catalysts

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摘要 The effect of particle size of silica, as catalyst binder, on the chemical and mechanical properties of iron based FT catalyst was studied in this work. The samples were characterized using XRD, BET, TEM, FT-IR, and H2-TPR, re- spectively. The attrition resistance and the FT activity were tested. Si-8-Si-15 catalysts prepared with 8-15 nm silica sol show good attrition resistance （attrition loss 〈 4%）, especially Si-13 with an attrition loss of 1.89%. He- matite appeared in XRD patterns when silica sol above 15 nm is used. TEM micrographs show that no obvious SiO2 particles appear when silica sol particle with size less than 8 nm was used, but SiO2 particles coated with small ferrihydrite particles appear when silica sol above 8 nm was used. Si-O-Si vibration peak in FT-IR spectra increases with increasing silica sol size. Samples prepared with silica sol show good stability of FT reactions, and the average molecular weight of FT products increases with the increase of SiO2 particle. The effect of particle size of silica, as catalyst binder, on the chemical and mechanical properties of iron based FT catalyst was studied in this work. The samples were characterized using XRD, BET, TEM, FT-IR, and H2-TPR, respectively. The attrition resistance and the FT activity were tested. Si-8–Si-15 catalysts prepared with 8–15 nm silica sol show good attrition resistance(attrition loss b 4%), especially Si-13 with an attrition loss of 1.89%. Hematite appeared in XRD patterns when silica sol above 15 nm is used. TEM micrographs show that no obvious Si O_2 particles appear when silica sol particle with size less than 8 nm was used, but Si O_2 particles coated with small ferrihydrite particles appear when silica sol above 8 nm was used. Si–O–Si vibration peak in FT-IR spectra increases with increasing silica sol size. Samples prepared with silica sol show good stability of FT reactions, and the average molecular weight of FT products increases with the increase of Si O_2 particle.

作者 Xiuying Guo Yijun Lu Peng Wu Kui Zhang Qinghua Liu Mingsheng Luo

机构地区 National Institute of Clean and Low Carbon Energy

出处《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2016年第7期937-943,共7页 中国化学工程学报（英文版）

基金 financial support from Shenhua Group and Zhejiang University of Technology is highly acknowledged for the catalyst test

关键词 SiO2 Fischer-Tropsch synthesisIron based FT catalystAttrition resistance SiO2颗粒铁基催化剂颗粒尺寸合成催化剂二氧化硅粒子纳米硅溶胶催化剂制备 XRD图谱

分类号 O643.36 [理学—物理化学] TQ529.2 [化学工程—煤化学工程]

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参考文献34

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Chinese Journal of Chemical Engineering

2016年第7期

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The effect of SiO_2 particle size on iron based F–T synthesis catalysts 被引量：2

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