Catalytic performance of vanadium incorporated MCM-41 catalysts for the partial oxidation of methane to formaldehyde

The catalytic performance of incorporated V-MCM-41 catalysts for the partial direct oxidation of methane to formaldehyde with molecular oxygen has been investigated. V-MCM-41 catalysts containing 0.56–1.86 wt.% V have been prepared by incorporating the vanadium ions into the framework of mesoporous siliceous MCM-41, resulting in a highly ordered structure with large BET surface area and high surface density of isolated vanadium atoms. The structure of the V-MCM-41 catalysts was studied by N2 physisorption. The influence of the main reaction parameters, i.e. reaction temperature, reaction pressure, CH4:O2 ratio, gas hourly space velocity (GHSV) and vanadium content, on the selectivity and space time yield (STY) of formaldehyde were studied. A formaldehyde selectivity of 59.4% using a 0.56 wt.% vanadium loading V-MCM-41 catalyst was achieved at a temperature of 873 K, pressure of 12 psi, CH4:O2 molar ratio of 13:1, GHSV of 2.0 10 l kg 1 h . The highest STYHCHO of 2103 g kg 1 h 1 with a high HCHO selectivity of 53.2% was obtained with the V-MCM-41 catalyst containing 1.86 wt.% vanadium loading at 933 K, CH4:O2 ratio of 13:1, GHSVof 1.3 10 l kg 1 h . The improved catalytic performance of the V-MCM-41 catalysts is related to the highly dispersed vanadium oxide species forming a high concentration of isolated active sites, which are crucial to minimize the consecutive oxidation of formaldehyde to carbon oxides. # 2006 Elsevier B.V. All rights reserved.