Na₂WO₄-Mn/mullite Catalysts for Oxidative Coupling of Methane

Abstract: The catalysts, 5 wt% Na2WO4-2 wt% Mn on mullites sintered at 1200°C, 1300°C, 1400°C, and 1500 °C, were prepared by incipient wetness impregnation method for the oxidative coupling of methane (OCM) reaction in a fixed-bed quartz tube reactor. These catalysts were characterized by XRD, XPS and BET method. The XRD pattern of Na2WO4-Mn/mullite indicated that the main crystal phase of metal oxide was MnWO4. From the XPS spectra, the results revealed the information on Na, W and Mn species distributed on the catalys… Show more

“…Monolithic mullite ceramics: The characteristics of monolithic mullite ceramics are influenced by amount, size, and distribution of mullite, and by the occurrence of coexisting phases and porosity. Typical applications are advanced refractories, crucibles, thermocouple tubes, heat exchangers, porous filters, catalyst supporting devices, substrates for silicon solar cells, hot gas filter candles, electronic packaging materials, optical materials, dental ceramic components, and antibacterial materials …”

“…Typical applications are advanced refractories, crucibles, thermocouple tubes, heat exchangers, porous filters, catalyst supporting devices, substrates for silicon solar cells, hot gas filter candles, electronic packaging materials, optical materials, dental ceramic components, and antibacterial materials. 3,[13][14][15][16][17][18] Mullite films and coatings: Metals and most non-oxide ceramics are susceptible to oxidation-induced degradation at high temperatures. A suitable way to achieve stability in oxidizing environments is the deposition of thin mullite layers on these materials by means of physical or chemical gas phase or by chemical deposition techniques.…”

Mullite: Crystal Structure and Related Properties

“…Monolithic mullite ceramics: The characteristics of monolithic mullite ceramics are influenced by amount, size, and distribution of mullite, and by the occurrence of coexisting phases and porosity. Typical applications are advanced refractories, crucibles, thermocouple tubes, heat exchangers, porous filters, catalyst supporting devices, substrates for silicon solar cells, hot gas filter candles, electronic packaging materials, optical materials, dental ceramic components, and antibacterial materials …”

“…Typical applications are advanced refractories, crucibles, thermocouple tubes, heat exchangers, porous filters, catalyst supporting devices, substrates for silicon solar cells, hot gas filter candles, electronic packaging materials, optical materials, dental ceramic components, and antibacterial materials. 3,[13][14][15][16][17][18] Mullite films and coatings: Metals and most non-oxide ceramics are susceptible to oxidation-induced degradation at high temperatures. A suitable way to achieve stability in oxidizing environments is the deposition of thin mullite layers on these materials by means of physical or chemical gas phase or by chemical deposition techniques.…”

Mullite: Crystal Structure and Related Properties

Kinetics of mullitization from sol-gel synthesized precursors