Abstract
Dehydrogenation of isobutane to isobutene in the presence of carbon dioxide was carried out over NiO/Al 2O 3 catalyst and the effect of K 2O additive on its catalytic behavior was investigated. Compared with the reaction in an inert atmosphere, the dehydrogenation of isobutane is coupled with the reverse water-gas shift by conducting the reaction in carbon dioxide, which can then enhance the isobutene yield. The addition of K 2O in the NiO/Al 2O 3 catalyst can decrease its acidity, alleviate the deep reduction of NiO active species during the reaction and then suppress the side reactions like cracking and coke formation; these are helpful to enhance the isobutene yield and to improve the catalyst stability.
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