The partial oxidation of methane in cold atmospheric plasma represents an innovative and promising approach to energy conversion and sustainable chemical processes for obtaining various chemicals and fuels. In present… Click to show full abstract
The partial oxidation of methane in cold atmospheric plasma represents an innovative and promising approach to energy conversion and sustainable chemical processes for obtaining various chemicals and fuels. In present work, dielectric barrier discharge plasma is applied to the partial oxidation of CH4 combined with Cu-containing catalysts. The catalysts with different porous and acidic properties were obtained, characterized by physico-chemical methods and used in plasma-catalytic reaction. The influence of the oxidizing agent (oxygen vs. air) on the products’ selectivity and yield was studied. It was found that using air as an oxidizer was beneficial in terms of CH4 conversion and gaseous products yield, as N2 aided in denser microdischarge formation. Using pure O2 for methane partial oxidation resulted in enhanced oxygenate (mainly CH3OH) generation. Furthermore, the Cu-containing catalysts enhanced methanol yield compared to the plasma-only process, as well as the energy efficiency of the process.
               
Click one of the above tabs to view related content.