Contribution of Ionic Reactions to Sub- and Supercritical Water Oxidation of Phenol

Hayashi Rumiko, Ohkuma Kosei, Tonokura Kenichi, Oshima Yoshito

doi:10.1252/jcej.40.556

The contribution of ionic reactions to phenol oxidation has been investigated in subcritical and supercritical water. From the experiments conducted at 24.7 MPa, it was found that the phenol conversions at 360°C were slightly higher than that at 400°C. We calculated the concentration of phenolate anion at 24.7 MPa using semiempirical model reported by Sue et al. (2002). The calculated concentration of phenolate anion at 360°C is about seventh order of magnitude higher than that at 400°C because of the high ion product of water at 360°C. The electron transfer (ET) reaction (C₆H₅O^– + O₂ = C₆H₅O· + O₂^–) was investigated as one of the reasons for the enhancement of phenol oxidation in subcritical water. We estimated the equilibrium constant of the ET reaction using density functional theory calculations, which suggests that the ET reaction should be taken into consideration in the region of high ion product of water. We also discussed the dimerization reaction as consumption reactions of phenoxy radical and other reactions involving inorganic ion species such as O₂^–, OH^– and HO₂^–. When phenoxy radical and O₂^– are produced effectively, these reactions could be more favorable in subcritical water than in supercritical water. From these discussions, phenol oxidation in subcritical water could be enhanced by the ionic reaction mechanism because of a high ion product of water.

Contribution of Ionic Reactions to Sub- and Supercritical Water Oxidation of Phenol

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Contribution of Ionic Reactions to Sub- and Supercritical Water Oxidation of Phenol

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Abstract

Journal

Citations (2)*help

References(48)*help

Keywords

Details 詳細情報について

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