Effect of gallium loading on the hydrodesulfurization activity of unsupported Ga2S3/WS2 catalysts

The effect of gallium incorporation into unsupported tungsten sulfide catalysts was investigated in dibenzothiophene (DBT) hydrodesulfurization (HDS) reaction. The Ga/WS2 catalysts with variable gallium loadings (0.5-2.5 wt%) were prepared by decomposition of W-thiosalt followed by impregnation with the Ga salt precursor. The samples were characterized by a variety of techniques: ICP-AES. N-2 adsorption-desorption at -196 degrees C, XRD, SEM. XPS, FTIR of CO chemisorbed and TPD-NH3. The last two techniques showed that gallium addition has a strong effect on the morphology of the tungsten sulfide phase by modifying the coordinately unsaturated sites (CUS) of the WS2 phase and total catalyst acidity. The HDS of DBT reaction (T=320 degrees C, PH, = 5.5 MPa) was found to proceed through two main parallel pathways: hydrogenation (HYD) and direct desulfurization (DOS). the latter being the main reaction route. With respect to Ga-free WS2 sample, all Ca-loaded catalysts showed an increase of HDS activity via hydrogenation (HYD) pathway and additional DBT cracking. The 1.5% Ga/WS2 catalyst was the most active among the catalysts studied. On the basis of the catalyst structure-activity relationship, this was linked to a homogeneous distribution of Ga species on the surface of WS2 (SEM), the largest amount of acid sites (from TPD-NH3) and the largest amount of corner sites on the WS2 slabs determined by FTIR-CO. For the Ga-containing catalysts, an increase of DBT transformation via HYD route was explained in terms of the formation of new CUS sites on WS2 phase as well as to an increase of the catalyst acidity. Acidity is a key requirement influencing on DBT cracking. (C) 2011 Elsevier B.V. All rights reserved.