Pretreatment effect in the oxidative dehydrogenation of ethane on magnesia in the presence and absence of tetrachloromethane

The oxidative dehydrogenation of ethane to ethylene on Mg,(PO,), has been investigated in the presence and absence of tetrachloromethane (TCM). The homogeneous reaction proceeded extensively at temperatures ahove 998 K, while the heterogeneous reaction on the phosphate occurred at temperatures below

The addition of water vapor has a strong positive effect on the rate of ethane oxidation at 575°C. This effect is attributed to the role of H20 as a third body in the decomposition of Hz02 to OH radicals. Carbon tetrafluoride likewise enhances the rate of ethane conversion, although not to the exten

The results of oxidative coupling of methane in the presence and absence of catalyst have been compared under the same or similar reaction conditions. The reaction in the presence of catalyst proceeded in steady state, but that in the absence of catalyst showed an induction period. The rate of the l

The oxidative dehydrogenation of ethane in ethene has been investigated in the 753-863 K temperature range over V2OJSiO2 catalysts prepared by grafting or wet impregnation methods. The acidic features of fresh and used catalysts were studied by ammonia and pyridine adsorption using microcalorimetry