Abstract
Highly loaded Co/SiO 2 catalysts were prepared by a co-precipitation technique with an n-butanol drying process for Fischer–Tropsch synthesis (FTS). With the increase in cobalt loading from 20% to 80%, the FTS activity of the catalysts increased greatly. The addition of ZrO 2 improved the dispersion of cobalt and promoted the adsorption of H 2 and CO on cobalt. The preadsorbed H atoms significantly enhanced the adsorption of CO and C 2H 4, especially on cobalt promoted by ZrO 2. While the adsorption of C 2H 4 onto clean cobalt led to the formation of ethylidyne, π- and di-σ-bonded C 2H 4 might form on the CO-preadsorbed 80%Co/SiO 2 and 80%Co–8%ZrO 2/SiO 2, respectively. The presence of ZrO 2 strengthened the bonding of molecularly adsorbed ethylene and increased its uptake on CO-preadsorbed cobalt, which might be why the 80%Co–8%ZrO 2/SiO 2 exhibited such high activity for the hydrogenation of CO to heavy hydrocarbons.
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