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Regeneration of Spent Catalyst and Impregnation of Catalyst by Supercritical Fluid
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作者 Farid M. Gumerov Bernard Le Neindre +1 位作者 Timur R. Bilalov Ajrat A. Sagdeev 《International Journal of Analytical Mass Spectrometry and Chromatography》 2016年第4期51-65,共16页
The possibility and feasibility of using supercritical fluid СО<sub>2</sub> extraction process have been investigated and described in the book as part of the task of spent catalysts regeneration. The an... The possibility and feasibility of using supercritical fluid СО<sub>2</sub> extraction process have been investigated and described in the book as part of the task of spent catalysts regeneration. The analysis of deactivating compounds has been carried out for industrial catalysts such as: 1) palladium catalyst G-58E of ethane-ethylene fraction hydrogenation;2) nickel/kieselguhr catalyst of process of separating acetylenic compounds from isoprene;3) active aluminum oxide catalyst of methyl phenyl carbinol dehydration process;4) palladium catalyst LD-265 of hydrocarbons hydrogenation process;5) nickel-molybdenum catalysts DN-3531 and Criterion 514 of kerosene hydrotreating process. The results of the study of catalyst deactivating compounds solubility in pure supercritical carbon dioxide and supercritical carbon dioxide are modified with polar additive. The results of the solubility study are described using the Peng-Robinson equation of state. The results of the implementation of the supercritical fluid СО<sub>2</sub> extraction process with respect to deactivated industrial catalyst samples have been provided. A comparison of the characteristics of samples of catalysts regenerated using the traditional approach and the SC-CO<sub>2</sub> extraction process has been conducted. The possibility of using supercritical fluid CO<sub>2</sub> impregnation process in the synthesis of a palladium catalyst has been investigated. The synthesis of palladium chloride-based organometallic complexes has been carried out. The results of the study of solubility thereof in supercritical carbon dioxide have been provided. A dynamic supercritical fluid CO<sub>2</sub> impregnation process condition has been implemented. A comparison of the characteristics of palladium catalyst samples synthesized using the conventional approach and SC-CO<sub>2</sub> impregnation process has been conducted and presented in the book. 展开更多
关键词 Palladium Catalyst G-58E Nickel/Kieselguhr/Diatomite Catalyst active aluminum oxide Catalyst Palladium Catalyst LD-265 Nickel-Molybdenum Catalysts DN-3531 and Criterion 514 Catalyst Regeneration Catalyst Activity Benzonitrile Complex of Palladium Chloride Styrene Complex of Palladium Chloride Cyclohexene Complex of Palladium Chloride
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