Development of a model for the wet air oxidation of phenol based on a free radical mechanism

A model for the wet air oxidation of phenol is proposed, based on elementary radical reactions that are known to occur in the oxidation process. By applying this model to associated experimental data, unknown rate constants have been calculated using numerical techniques to solve the system of diffe...

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Bibliographic Details
Published in:Chemical engineering science 1998-07, Vol.53 (14), p.2575-2586
Main Authors: Rivas, F.J., Kolaczkowski, S.T., Beltrán, F.J., McLurgh, D.B.
Format: Article
Language:English
Subjects:
Applied sciences
Exact sciences and technology
free radicals
General purification processes
mathematical model
phenol
Pollution
reaction mechanism
wastewater treatment
Wastewaters
Water treatment and pollution
Wet air oxidation
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Summary:A model for the wet air oxidation of phenol is proposed, based on elementary radical reactions that are known to occur in the oxidation process. By applying this model to associated experimental data, unknown rate constants have been calculated using numerical techniques to solve the system of differential equations that describes the proposed mechanism. The activation energy and pre-exponential factor for the elementary reaction between phenol and the phenoxyperoxyl radical (PhOO•) were estimated to be 47±3 kJ mol -1 and 1.7± 0.1×10 10 l mol -1 s -1 respectively, while values of 126±4 kJ mol -1 and 4.7±0.2×10 10 s -1 were found for the decomposition of phenoxy hydroperoxide (PhOOH). The operating parameters of temperature, oxygen concentration, pH and addition of free radical promoters (H 2O 2) have been studied, and in general, a good agreement has been obtained between experimental data and calculated concentration profiles. According to the proposed mechanism, it is shown that hydroxyl radicals (OH•) and phenoxyperoxyl radicals (PhOO•) are primarily responsible for the destruction of phenol, with perhydroxyl radicals (HO 2•) having a less significant role to play in the process. The principles described in this paper may be applied to understand the wet air oxidation mechanism of other organic compounds.
ISSN:0009-2509
1873-4405
DOI:10.1016/S0009-2509(98)00060-8