Temperature programmed desorption study on the mechanism of SO2 oxidation by activated carbon and activated carbon fibres

The technique of temperature-programmed desorption (TPD) appears to be a powerful means of studying the catalytic action of sodium carbonate as a gasification catalyst. Carbonate decomposition, enhanced by carbon, and reduction to the metallic state can be identified by separate desorption peaks. Af

The thermal desorption in water of phenol, 2-dichlorophenol, 2,6-dichlorophenol, 4-nitrophenol and 2,6-dichloro-4-nitrophenol adsorbed onto an activated carbon is studied by temperature-programmed desorption (TPD) in liquid phase and by temperature-programmed adsorption-desorption (TPAD). The TPAD t

The adsorption and the desorption of SO: on active carbons is studied in relation to the surface characteristics of the carbons. Surface basic groups (with pyronic or pyronic-like structure) greatly increase the adsorption of SO,, that can be divided into two forms. one weakly and the other strongly

Ab initio molecular orbital calculations were performed on the possible pathways of the carbon-catalyzed oxidation of SO by O / H O to form sulfuric acid. Both zigzag and armchair edge sites of graphite, with and without surface oxide, were 2 2 2 considered as the possible active sites. For the site

SO removal from flue gases by carbonaceous materials is determined by their behaviour as catalysts for SO oxidation 2 2 into SO or H SO in the presence of O or O and steam, respectively. Previous studies have demonstrated that nitrogen 3 2 4 2 2 (N) functional groups are active sites for the adsorp