Effect of Co addition for carburizing process of Ti-oxide/SiO2 into TiC/SiO2

Lowering the carburization temperature of Ti-oxide into TiC down to 1173 K could be achieved by the addition of Co. Co-promoted TiC/SiO2 catalysts were prepared by the temperature programmed reaction (TPR) method. Co–Ti/SiO2 precursors were prepared by use of the successive impregnation method (sc) and the co-impregnation method (co). Samples were characterized by X-ray absorption fine structure (XAFS) measurements and X-ray diffraction (XRD) results. The carburization degree of TiC was affected by the method of Co addition. The carburization degree of sc Co–TiC/SiO2 was better than that of co Co–TiC/SiO2. The activity of thiophene hydrodesulfurization reaction at 693 K on sc Co–TiC/SiO2 was higher than that on co Co–TiC/SiO2. The HDS activity was related to the carburization degree of TiC.

Lowering the carburization temperature of Ti-oxide into TiC down to 1173 K could be achieved by the addition of Co. Co-promoted TiC/SiO2 catalysts were prepared by the temperature programmed reaction (TPR) method. Co–Ti/SiO2 precursors were prepared by use of the successive impregnation method (sc) and the co-impregnation method (co). Samples were characterized by X-ray absorption fine structure (XAFS) measurements and X-ray diffraction (XRD) results. The carburization degree of TiC was affected by the method of Co addition. The carburization degree of sc Co–TiC/SiO2 was better than that of co Co–TiC/SiO2. The activity of thiophene hydrodesulfurization reaction at 693 K on sc Co–TiC/SiO2 was higher than that on co Co–TiC/SiO2. The HDS activity was related to the carburization degree of TiC. Figure optionsDownload as PowerPoint slide