Adsorption of gases on catalysts of technical importance

Abstract

Studies have been carried out in their entirety concerning the adsorption of carbon monoxide on cobalt catalysts containing Co 100, Thoria 10, and Kieselguhr 200#. Progression of small aggregate cobalt oxide on the catalyst each time the adsorption of hydrogen at 35°, 10°, and 3° is enhanced to higher than the temperature and the amount of carbon monoxide. Activation of the neighbouring centres for adsorption by the adsorbed carbon monoxide on the raw surface of carbon monoxide can cause the observed enhancement. Absorption instances suggest the adsorption of carbon monoxide at 55° and 70°, a continuous effect in already adsorbed relatively large doses of hydrogen. These results can be explained on the basis of hydrogen adsorption on two portions of the catalyst surface-the adsorption in one part causing suppression and on the other part causing enhancement of carbon monoxide adsorption. The adsorption of carbon monoxide from H? and H? mixtures shows that from the pure gas at 55° and 70°, adsorption of carbon monoxide with hydrogen has been studied in their entirety concerning the adsorption of carbon monoxide on cobalt catalysts containing Co 100, Thoria 10, and Kieselguhr 200#. Progression of small aggregate cobalt oxide on the catalyst each time the adsorption of hydrogen at 35°, 10°, and 3° is enhanced to higher than the temperature and the amount of carbon monoxide. Activation of the neighbouring centres for adsorption by the adsorbed carbon monoxide on the raw surface of carbon monoxide can cause the observed enhancement. Absorption instances suggest the adsorption of carbon monoxide at 55° and 70°, a continuous effect in already adsorbed relatively large doses of hydrogen. These results can be explained on the basis of hydrogen adsorption on two portions of the catalyst surface-the adsorption in one part causing suppression and on the other part causing enhancement of carbon monoxide adsorption. The adsorption of carbon monoxide from H? and H? mixtures shows that from the pure gas at 55° and 70°, adsorption of carbon monoxide with hydrogen has been studied.