The effect of silanol groups on the metal-support interactions in silica-supported cobalt Fischer-Tropsch catalysts. A temperature programmed surface reaction

The effect of H bonded and isolated silanol groups on the metal support interactions of SiO₂-supported Co catalysts in Fischer-Tropsch (FT) synthesis are reported. SiO₂ supports were pre-treated in order to improve the concentration of isolated SiOH on the surface of the SiO₂. Isolated SiOH groups act as an aid to achieving relatively good metal dispersions by creating metal anchoring sites, and enhances smaller metal crystallites deposition on the surface of the SiO₂. SiO₂ supports were pre-treated in two different ways: (a) pre-treatment by thermal method (HT); (b) pre-treatment by ethylene glycol (EG). The incipient wetness impregnation technique was adopted for the preparation of the catalysts, each catalyst loaded with approximately 10 wt% Co on each of the three supports designated as Co/SiO₂ – UT, Co/SiO₂ – HT, and Co/SiO₂ – EG. Co/SiO₂ – UT was used as a reference for this study. A number of characterization methods were applied to study the chemical and physical properties of the supports and the catalysts namely BET, XRD, ICP-OES, FTIR, H₂ chemisorption, TEM, TPR, and TPSR. The results from H₂ chemisorption, TEM and XRD indicated that the Co/SiO₂ – EG showed relatively smaller metal crystallites and a better cobalt crystallite dispersion while TPR, CO TPD, and TPSR studies indicated that Co/SiO₂ – EG catalyst exhibited stronger metal-support interaction, unlike the other two catalysts. Catalyst evaluation experiments showed that Co/SiO₂-HT catalysts showed better FT activity while the Co/SiO₂ – EG catalyst favored light olefins. FT catalyst evaluation results were in agreement with the TPSR studies.