Unsupported Ni-Mo-W Hydrotreating Catalyst: Influence of the Atomic Ratio of Active Metals on the HDS and HDN Activity

Hydrotreating is one of the largest processes used in a refinery to improve the quality of oil products. The great demand of the present is to develop more active catalysts which could improve the energy efficiency of the process when it is necessary for heavier feedstock to be processed. Unsupported catalysts could solve this problem, because they contain the greatest amount of sulfide active sites, which significantly increase catalysts' activity. Unfortunately, most of the information on the preparation and properties of unsupported catalysts is devoted to powder systems, while industrial plants require granular catalysts. Therefore, the present work describes a method for the preparation of granular Ni-Mo-W unsupported hydrotreating catalysts and studies the influence of the Ni/Mo/W atomic ratio on their properties. Catalysts have been prepared by plasticizing Ni-Mo-W precursor with aluminum hydroxide followed by granulation and drying stages. Ni-Mo-W precursor and granular catalysts were studied by X-ray diffraction (XRD), nitrogen adsorption-desorption method, high-resolution transmission electron microscopy (HRTEM), and thermal analysis. Granular catalysts were sulfided through a liquid-phase sulfidation procedure and tested in hydrotreating of straight-run vacuum gasoil. It was shown that the Ni/Mo/W atomic ratio influenced the formation and composition of active compounds and had almost no influence on the textural properties of catalysts. The best hydrodesulfurization (HDS) activity was obtained for the catalyst with Ni/Mo/W ratio-1/0.15/0.85, while hydrodenitrogenation (HDN) activity of the catalysts is very similar.

Automated summary

This study describes a method for preparing granular unsupported hydrotreating catalysts with Ni-Mo-W and investigates the influence of the Ni/Mo/W atomic ratio on their properties. The results show that the Ni/Mo/W atomic ratio affects the formation and composition of active compounds while having little influence on the textural properties of the catalysts.