Electrochemical Oxidation of Phenol Using Graphite Anodes

Awad, Yousef Marei; Abuzaid, Nabil S.

doi:10.1081/ss-100100675

Cited by 56 publications

(30 citation statements)

References 8 publications

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“…3 for the remaining phenol concentration, and Fig. 4 4 required also changed proportionally with phenol concentration. This situation was also valid for the initial concentrations of 200 and 500 mg/L.…”

Section: Resultsmentioning

confidence: 97%

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Phenol Removal through Chemical Oxidation using Fenton Reagent

2007

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In this study, phenol, aromatic, and non-biodegradable organic matter were investigated and found to be removed from the model solution through chemical oxidation using Fenton reagent. The effects of the initial phenol concentration, hydrogen peroxide, and ferrous sulfate concentrations on the removal efficiency were investigated. Performance of the chemical oxidation process was monitored with phenol and COD (Chemical Oxygen Demand) analyses. In the experimental studies, phenol removal of over 98 % and COD removal of nearly 70 % were achieved. The optimum conditions for Fenton reaction both for initial phenol concentrations of 200 and 500 mg/L were found at a ratio [Fe 2+ ]/[H 2 O 2 ] (mol/mol) equal to 0.11. According to the results, chemical oxidation using Fenton reagent was found to be too effective, especially for phenol removal. However, this method has limited removal efficiency for COD.

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Section: Resultsmentioning

confidence: 97%

“…Phenols react with chlorine during water treatment and produce chlorophenols, which are carcinogenic compounds [3,4]. Minute concentrations of phenol (2.5 mg/L) cause objectionable tastes in potable water and also may taint the flesh of fish.…”

Section: Introductionmentioning

confidence: 99%

Phenol Removal through Chemical Oxidation using Fenton Reagent

2007

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“…To improve the degradation efficiency various types of electrode, including graphite [8], Pt [9], activated carbon [10], carbon fiber [11], PbO 2 [12], SnO 2 [13], and diamond electrodes [14] have been investigated. A general scheme for the electrochemical degradation of organic compounds on metal oxide electrodes (MO x ) has been proposed [15].…”

Section: Introductionmentioning

confidence: 99%

Electrocatalytic oxidation of nitrophenols in aqueous solution using modified PbO2 electrodes

Liu

Zhang

et al. 2007

J Appl Electrochem

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Various kinds of modified lead dioxide (PbO 2 ) electrodes, doped with bismuth oxides and cobalt oxides, were prepared by electrodeposition in acid solution, and were characterized in terms of their morphological (SEM) and structural (XRD) features. Mineralization experiments on o-nitrophenol (ONP) in an electrocatalytic oxidation system showed that the electrocatalytic activity of Ti/BiPbO 2 was superior to the traditional dimensionally stable anodes (DSAs) Ti/b-PbO 2 and other modified PbO 2 electrodes. The mineralization, reaction kinetics and nitrogroup transformation of nitrophenols (ONP, p-nitrophenol (PNP) and m-nitrophenol (MNP)) on Ti/Bi-PbO 2 electrodes were studied and compared. NPs were degraded completely under the present experimental conditions by applying a 30 mA cm -2 current density at pH 4.3 in 0.1 M Na 2 SO 4 and 0.01 M NaCl. The degradation of NPs lay in the order: ONP [ MNP [ PNP. A simple degradation mechanism model is proposed.

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“…Phenol has been chosen, as model compound, due to its well-known mechanism of decomposition [8][9][10][11][12] and for the great number of papers found in literature dealing with phenol electrodegradation. [10][11][12][13][14][15] The main goal was to optimize the cell reactor with respect to current density, and to select the best electrode material for organics oxidation. As we are looking forward to scale up the process, the electrode selection is one of the important decisions to take.…”

Section: Comparative Study Of Commercial Oxide Electrodes Performancementioning

confidence: 99%