Please use this identifier to cite or link to this item: http://hdl.handle.net/10397/2405
Title: Kinetic modeling of electro-Fenton reaction in aqueous solution
Authors: Liu, H
Li, XZ
Leng, Y
Wang, C
Keywords: E-Fenton
H?O?
Kinetic model
Phenol
Issue Date: Mar-2007
Publisher: IWA Publishing
Source: Water research, Mar. 2007, v. 41, no. 5, p. 1161-1167 How to cite?
Journal: Water research 
Abstract: To well describe the electro-Fenton (E-Fenton) reaction in aqueous solution, a new kinetic model was established according to the generally accepted mechanism of E-Fenton reaction. The model has special consideration on the rates of hydrogen peroxide (H?O?) generation and consumption in the reaction solution. The model also embraces three key operating factors affecting the organic degradation in the E-Fenton reaction, including current density, dissolved oxygen concentration and initial ferrous ion concentration. This analytical model was then validated by the experiments of phenol degradation in aqueous solution. The experiments demonstrated that the H?O? gradually built up with time and eventually approached its maximum value in the reaction solution. The experiments also showed that phenol was degraded at a slow rate at the early stage of the reaction, a faster rate during the middle stage, and a slow rate again at the final stage. It was confirmed in all experiments that the curves of phenol degradation (concentration vs. time) appeared to be an inverted "S" shape. The experimental data were fitted using both the normal first-order model and our new model, respectively. The goodness of fittings demonstrated that the new model could better fit the experimental data than the first-order model appreciably, which indicates that this analytical model can better describe the kinetics of the E-Fenton reaction mathematically and also chemically.
URI: http://hdl.handle.net/10397/2405
ISSN: 0043-1354
EISSN: 1879-2448
DOI: 10.1016/j.watres.2006.12.006
Rights: Water Research ? 2007 Elsevier. The journal web site is located at http://www.sciencedirect.com.
Appears in Collections:Journal/Magazine Article

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