Titania-Decorated Silicon Carbide-Containing Cobalt Catalyst for Fischer鈥揟ropsch Synthesis

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• 作者：Yuefeng Liu ; Benoit de Tymowski ; Fabrice Vigneron ; Ileana Florea ; Ovidiu Ersen ; Christian Meny ; Patrick Nguyen ; Charlotte Pham ; Francis Luck ; Cuong Pham-Huu
• 刊名：ACS Catalysis
• 出版年：2013
• 出版时间：March 1, 2013
• 年：2013
• 卷：3
• 期：3
• 页码：393-404
• 全文大小：701K
• 年卷期：v.3,no.3(March 1, 2013)
• ISSN：2155-5435

文摘

The metal鈥搒upport interactions of titanium dioxide decorated silicon carbide (尾-SiC)-supported cobalt catalyst for Fischer鈥揟ropsch synthesis (FTS) were explored by a combination of energy-filtered transmission electron microscopy (EFTEM), ⁵⁹Co zero-field nuclear magnetic resonance (⁵⁹Co NMR), and other conventional characterization techniques. From the 2D elemental maps deduced by 2D EFTEM and ⁵⁹Co NMR analyses, it can be concluded that the nanoscale introduction of the TiO₂ into the 尾-SiC matrix significantly enhances the formation of small and medium-sized cobalt particles. The results revealed that the proper metal鈥搒upport interaction between cobalt nanoparticles and TiO₂ led to the formation of smaller cobalt particles (<15 nm), which possess a large fraction of surface atoms and, thus, significantly contribute to the great enhancement of conversion and the reaction rate. The cobalt time yield of the catalyst after modification increased to 7.5 脳 10^鈥? mol_CO g_Co^鈥? s^鈥? at 230 掳C, whereas the C₅₊ selectivity maintained a high level (>90%). In addition, the adequate meso- and macro-pores of the SiC-based support facilitated intimate contact between the reactants and active sites and also accelerated the evacuation of the intermediate products. It was also worth noting that a superior and stable FTS specific rate of 0.56 g_C5+ g_catalyst^鈥? h^鈥? together with high C₅₊ selectivity of 91% were obtained at common industrial content of 30 wt % cobalt.

Keywords:

metal鈭抯upport interaction; Fischer鈭扵ropsch synthesis; silicon carbide; cobalt; titanium oxide; energy-filtered TEM; ⁵⁹Co NMR; catalysis