Highly Durable C₂ Hydrocarbon Production via the Oxidative Coupling of Methane Using a BaFe_0.9Zr_0.1O_3−δ Mixed Ionic and Electronic Conducting Membrane and La₂O₃ Catalyst

Abstract: The oxidative coupling of methane (OCM) is an attractive technology for the production of ethane (C2H6) and ethylene (C2H4); and significant performance and efficiency gains as well as reduced carbon dioxide (CO2) emissions are expected when OCM takes place within mixed ionic and electronic conducting (MIEC) ceramic membrane reactors (CMRs). So far, research on OCM in CMRs has been limited to unstable and incompatible materials investigated under short-term measurements that hinder upscaling and commercial app… Show more

“…When these larger species are investigated in a CLC context, they are normally investigated as product and not as a fuel. For example, Dimitrakopoulos et al investigated C 2 molecule production from partial oxidation of CH 4 with lanthanum oxide. The oxidation kinetics of light hydrocarbons, ranging from C 2 to C 5 , on NiO has not been thoroughly explored.…”

Plasma-Assisted Chemical-Looping Combustion: Low-Temperature Methane and Ethylene Oxidation with Nickel Oxide

“…When these larger species are investigated in a CLC context, they are normally investigated as product and not as a fuel. For example, Dimitrakopoulos et al investigated C 2 molecule production from partial oxidation of CH 4 with lanthanum oxide. The oxidation kinetics of light hydrocarbons, ranging from C 2 to C 5 , on NiO has not been thoroughly explored.…”

Plasma-Assisted Chemical-Looping Combustion: Low-Temperature Methane and Ethylene Oxidation with Nickel Oxide

“…They typically operate at 800-900 1C, which is ideal for the catalytic conversion of methane to C 2 . It is well known that the OCM involves the cleavage of the C-H bond in CH 4 and the selective coupling of C-C. 13,22 In the oxygen-ion conducting SOEs, the conversion mechanism of methane is shown in Fig. 1, which is embodied by the oxygen ions generated at the cathode being transported to the anode through the electrolyte membrane, and the methane being electrochemically oxidized at the anode to generate C 2 and other products.…”

A metal–oxide interface enhances the methane oxidative coupling reaction in a solid oxide electrolyzer

“…[1][2][3] Based on the current consumption of ethylene, its global demand is expected to reach $260 million tons in 2023 and $290 million tons by 2030. 4 The conventional route for industrial ethylene production is the steam cracking of ethane and naphtha, which is energy-intensive due to its high operating temperature and causes severe CO 2 emissions. 5,6 Therefore, it is worth nding alternative economical and environmentally friendly routes.…”

Pure silica-supported transition metal catalysts for the non-oxidative dehydrogenation of ethane: confinement effects on the stability