Abstract
Cu/ZnO/Al 2O 3 (CZA), Cu/ZnO/SiO 2 (CZS) and Cu/ZnO/activated carbon (CZC) impregnation catalysts were studied with respect to their catalytic activity in the synthesis of methanol from CO/H 2 and CO/H 2/CO 2. Temperature-programmed reduction (TPR) indicated the presence of copper not only on the support but also in interaction with ZnO in all three types of catalysts. During methanol synthesis from CO/H 2/CO 2, both the copper surface areas and the activities of the low-zinc CZC catalysts decreased rapidly due to the weak interaction between copper and carbon. The presence of larger amounts of zinc had a stabilizing effect on both the copper surface area and the activity. The CZS catalysts exhibited a slow increase in activity with process time. The activity of the CZA catalysts remained quite stable during the experiments. In methanol synthesis from CO/H 2, the activity of all catalysts was lower than in CO/H 2/CO 2, while the nature of the support had a large influence on the activity: the activity of copper on SiO 2 or on activated carbon was much lower than that of Al 2O 3-or ZnO-supported copper. In contrast, the activity in CO/H 2/CO 2 appeared to be much less dependent on the choice of the support.
Published Version
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