Conversion of Isobutane in Presence of Carbon Dioxide over Molybdenum Oxide Catalysts Obtained from Heteropolymolybdate Precursors

Molybdenum based oxide catalysts Mo-H, Mo-Fe, Mo-Ce, and Mo-Sn were prepared by calcining H3PMo12O40, Fe1.5PMo12O40, Ce1.5PMo12O40, and Sn1.5PMo12O40 heteropolyanion precursors at 700 °C, respectively. The prepared oxides have been characterized and tested for the dehydrogenation of isobutane (IB) to isobutene in the presence of CO2. The effects of temperature, time on stream and CO2/IB ratio were investigated. It was found that α- and β-MoO3 phases were present in all catalysts. Catalytic tests showed that increasing the reaction temperature increased both the conversion and isobutene selectivity, whereas increasing the CO2/IB molar ratio increased the conversion but decreased the selectivity for isobutene. Iron was found to be an effective additive element for the enhancement of catalytic activity compared with Ce and Sn.

Graphical abstractMixed Mo-M oxides (M = Sn, Fe, and Ce) were prepared by decomposition of Keggin-type (H3PMo12O40, Fe1.5PMo12O40, Ce1.5PMo12O40, and Sn1.5PMo12O40) heteropolyanions. Catalytic tests for the dehydrogenation of isobutane in the presence of CO2 showed that the Mo-Fe mixed oxides were the optimum catalysts of the series.Figure optionsDownload full-size imageDownload as PowerPoint slide