Effect of Calcination on Co-Impregnated Active Carbon

The NO conversion in a NO + Ar gas mixture has been investigated on Co-impregnated active carbon catalysts in the absence of any added gas-phase reducing agents. The catalysts obtained are very promising with respect to NO conversion because they are active at low temperatures (below 200°C) and the

The adsorption of cyanogen chloride on impregnated carbon containing copper and chromium compounds and other additives is accompanied by the formation of carbon dioxide. Presorbed water enhances the formation of carbon dioxide and decreases the desorption of cyanogen chloride. Cyanogen chloride is a

The reduction of NO with CO on Ni-impregnated active carbon catalysts (AC/Ni) has been investigated. High activity toward NO reduction can be achieved on an AC/Ni catalyst obtained by thermal decomposition of the precursor nitrate at 200°C. The role of active carbon in the catalytic reduction of NO

This paper describes an investigation of the adsorption of CH,I on a KI-impregnated carbon and the influence of competitive adsorption on the process. A gravimetric method was used to study the equilibrium capacity and kinetics for the adsorption of CO2 and CH,I in the presence of He, and CH,I in th