Investigation of activity and selectivity of redox catalysts in oxidative coupling of methane in fluidized bed reactor

Abstract: In this study, oxidative coupling of methane on Redox catalysts in fluidized bed reactor was investigated. For this purpose, the catalyst Mn-Na 2 WO 4 /SiO 2 was selected as a Redox catalyst. In order to investigate this catalyst, transient state experiments were designed and performed. Then, the different reaction conditions on this catalyst in a fluidized bed reactor were investigated. In transient state experiments, methane feed without the presence of oxygen in the gas phase was sent incrementally on the c… Show more

“…The major challenge for this approach is the requirement of the oxygen carriers to possess properties of high oxygen carrying, recyclability, and C 2 selectivity. Extensive efforts have been spent over the past decades on selection of a suitable oxygen carrier that can achieve high C 2 selectivity. − However, the CLOCM mechanism and the factors affecting the selectivity of oxygen carriers remain unclear . New insights into the oxygen vacancy effect on methane conversion to C 2 hydrocarbon are needed, particularly in light of recent studies on methane partial oxidation that showed that the oxygen vacancy could improve methane activation in the absence of molecular oxygen. , …”

C₂ Selectivity Enhancement in Chemical Looping Oxidative Coupling of Methane over a Mg–Mn Composite Oxygen Carrier by Li-Doping-Induced Oxygen Vacancies

“…The major challenge for this approach is the requirement of the oxygen carriers to possess properties of high oxygen carrying, recyclability, and C 2 selectivity. Extensive efforts have been spent over the past decades on selection of a suitable oxygen carrier that can achieve high C 2 selectivity. − However, the CLOCM mechanism and the factors affecting the selectivity of oxygen carriers remain unclear . New insights into the oxygen vacancy effect on methane conversion to C 2 hydrocarbon are needed, particularly in light of recent studies on methane partial oxidation that showed that the oxygen vacancy could improve methane activation in the absence of molecular oxygen. , …”

C₂ Selectivity Enhancement in Chemical Looping Oxidative Coupling of Methane over a Mg–Mn Composite Oxygen Carrier by Li-Doping-Induced Oxygen Vacancies

Oxidative Coupling of Methane for Ethylene Production: Reviewing Kinetic Modelling Approaches, Thermodynamics and Catalysts