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A novel particle/metal-based monolithic catalysts dual-bed reactor with beds-interspace supplementary oxygen is constructed comprising of the upper-layer 5 wt%Na2WO4-2 wt%Mn/SiO2 particle catalyst and the under-layer 3 wt%Ce-5 wt%Na2WO4-2 wt%Mn/SBA-15/Al2O3/FeCrAl metal-based monolithic catalyst as well as a side tube in the interspaces of two layers for supplementing O2.The reaction performance of oxidative coupling of methane (OCM) in the dual-bed reactor system is evaluated.The effects of the reaction parameters such as feed CH4/O2 ratio,reaction temperature and side tube feed O2 flowrate on the catalytic performance are investigated.The results indicate that the suggested mode of dual-bed reactor exhibits an excellent performance for OCM.CH4 conversion of 33.2%,C2H4 selectivity of 46.5% and C2 yield of 22.5% could be obtained,which have been increased by 6.4%,4.1% and 5.5%,respectively,as compared with 5 wt%Na2WO4-2 wt%Mn/SiO2 particle catalyst in a single-bed reactor and increased by 10.7%,31.9% and 17.7%,respectively,as compared with 3 wt%Ce-5 wt%Na2WO4-2 wt%Mn/SBA-15/Al2O3/FeCrAl metal-based monolithic catalyst in a single-bed reactor.The effective promotion of OCM performance in the reactor would supply a valuable reference for the industrialization of OCM process.