Catalytic Hydrothermal Oxidation of p-Chlorophenol with Cu or Fe-Grafted TiO2. Enhanced Decomposition by Fenton-Type Reaction
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概要
- 論文の詳細を見る
Catalytic hydrothermal oxidation of p-chlorophenol has been examined using two types of reactor systems, i.e., a flow-type reactor system in which the catalyst powder was suspended in the reaction mixtures and a fixed-bed reactor system in which the sintered catalyst was packed in the reactor. Cu- or Fe-grafted TiO2 was employed as a catalyst and hydrogen peroxide was used as an oxidizing reagent. The decomposition efficiency of p-chlorophenol treated by the flow-type reactor system is considerably enhanced with the help of Cu-grafted TiO2 at reaction temperatures around 200°C; whereas, little effect is observed at any temperature for Fe-grafted TiO2. It is suggested that the Fenton-type reaction catalyzed by Cu ions contained in the Cu-grafted TiO2 and/or dissolved out in the solution undergoes substantial acceleration at high temperatures, leading to the increased generation of OH· radicals that can effectively oxidize p-chlorophenol. On the other hand, it appears that the Fe-ion-catalyzed Fenton reaction is suppressed in the hydrothermal environment. The prolonged treatment of p-chlorophenol using the fixed-bed reactor system, that is more suitable for practical use than the flow-type one, has also been performed with Cu-grafted TiO2 catalyst at a reaction temperature of 200°C. The result demonstrates that it is possible to treat p-chlorophenol continuously for up to 36 h without significant loss of the catalytic activity.
- The Society of Chemical Engineers, Japanの論文
著者
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Honda Hiroki
Department Of Electrical Engineering Kyoto University:(present Address)mitsubishi Electric Corporati
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Kometani Noritsugu
Department of Applied Chemistry & Bioengineering, Graduate School of Engineering, Osaka City University
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Shimokawa Ai
R&D Strategy Headquarters, Ishihara Sangyo Kaisha Ltd.
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Nakao Kyohei
Department of Applied Chemistry & Bioengineering, Graduate School of Engineering, Osaka City University
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- Catalytic Hydrothermal Oxidation of p-Chlorophenol with Cu or Fe-Grafted TiO2. Enhanced Decomposition by Fenton-Type Reaction