Methane Conversion by Oxidative Processes

Fundamentals. Formation and reactions of methyl radicals over metal oxides catalysts. The role of gas phase reactions during methane oxidative coupling. Partial oxidation of methane over metal oxides, reaction mechanism, and active oxygen species. The oxidative coupling of methane - reaction pathways and their process implications. The role of lattice oxygen in the oxidative coupling of methane. The development of a doped Li-MgO catalysis system for the low temperature oxidative coupling of methane. Studies of the mechanism of the oxidative coupling of methane on oxide catalysts. Elementary reactions and kinetic modeling of the oxidative coupling of methane. Mechanism of co-oxidative methane dimerization catalysis - kinetics and thermodynamic aspects. Morphological aspects of catalysts for oxidative coupling of methane. Basic solids as catalysts for the oxidative coupling of methane. The direct conversion of methane to methanol (DMTM). Engineering aspects. The OXCO process - the direct conversion of natural gas to olefins and liquid fuels using fluidized bed technology. Direct conversion of methane to C2 and liquid fuels. Process economics. Direct methane conversion by oxidative processes - fundamental and engineering aspects.