and Nikolai G. Digurov scite author profile

and Nikolai G. Digurov

2Publications

27Citation Statements Received

6Citation Statements Given

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Affiliations

D. Mendeleyev University of Chemical Technology of Russia

Publications

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Kinetic Model of Ethyl Benzene Oxidation Catalysed by Manganese Salts

Бухаркина

Grechishkina

Digurov

et al. 2003

Org. Process Res. Dev.

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A practical model was developed for liquid-phase Mn 3+catalysed oxidation of ethyl benzene by O 2 . The model describes time profiles of concentrations of ethyl benzene and two intermediate oxidation products (methyl phenyl carbinol and acetophenone). The kinetic model of acetophenone oxidation to benzoic acid was also obtained. The influence of the main products of the ethyl benzene oxidation on the reaction kinetics is discussed. It was established that the addition of ethyl benzene hydroperoxide does not affect the reaction rate; the addition of methyl phenyl carbinol inhibits the reaction. The addition of acetophenone promotes the reaction and neutralises the inhibiting effect of methyl phenyl carbinol. The proposed reaction mechanism includes free-radical ethyl benzene oxidation. The process is initiated by the acetophenone interaction with Mn 3+ ion, and the chain is propagated due to the hydroperoxide interaction with ethyl benzene. The chain termination is quadratic. The length of the oxidation chain was calculated. The inhibition is caused by the manganese bonding to form an inactive complex. The obtained system of differential rate equations adequately describes the process.

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Liquid-Phase Ethyl Benzene Oxidation Catalysed by Manganese Salts

Бухаркина

Grechishkina

Digurov

et al. 1999

Org. Process Res. Dev.

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The liquid-phase oxidation of ethyl benzene by O2 catalysed by manganese stearate (MnSt2) in a stirred batch reactor has been studied. The main reaction products are ethyl benzene hydroperoxide, methyl phenyl carbinole, and acetophenone. It was established that the reaction includes four basic macro-stages: an induction period, a period of accelerated ethyl benzene consumption, a period of slowing-down, and an inhibition step. It was shown that the initial rate of the second step is described by the equation r 0 = k[EB]0 . The observed experimental data allowed the supposition that the reaction proceeds by the radical-chain mechanism with participation of hydroperoxide radicals. The overall process is possibly initiated by Mn3+ ions.

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