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Phenol Contaminated Water Treatment on Several Modified Dimensionally Stable Anodes
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ABSTRACT: Phenolic compounds are some of the most common hazardous organics in wastewater. Removal of these pollutants is important. Physiochemical method such as electrochemical oxidation on dimensionally stable anodes is more convenient in removing such organic pollutants. Therefore, this study focuses on development of three different anodes for phenol contaminated water treatment. The performances of steel/IrO2, steel/IrO2‐Sb2O3, and Ti/IrO2‐Sb2O3 anodes were tested and compared. Nearly 50, 76, and 84% of chemical oxygen demand removal efficiencies were observed for steel/IrO2, steel/IrO2‐Sb2O3, and Ti/IrO2‐Sb2O3 anodes, respectively. The formation of intermediates was monitored for three anodes and the Ti/IrO2‐Sb2O3 anode showed the most promising results. Findings suggest that the developed anode materials can enhance phenol oxidation efficiency and that mixed metal oxide layer has major influence on the anode. Among the selected metal oxide mixtures IrO2‐Sb2O3 was the most suitable under given experimental conditions.
Title: Phenol Contaminated Water Treatment on Several Modified Dimensionally Stable Anodes
Description:
ABSTRACT: Phenolic compounds are some of the most common hazardous organics in wastewater.
Removal of these pollutants is important.
Physiochemical method such as electrochemical oxidation on dimensionally stable anodes is more convenient in removing such organic pollutants.
Therefore, this study focuses on development of three different anodes for phenol contaminated water treatment.
The performances of steel/IrO2, steel/IrO2‐Sb2O3, and Ti/IrO2‐Sb2O3 anodes were tested and compared.
Nearly 50, 76, and 84% of chemical oxygen demand removal efficiencies were observed for steel/IrO2, steel/IrO2‐Sb2O3, and Ti/IrO2‐Sb2O3 anodes, respectively.
The formation of intermediates was monitored for three anodes and the Ti/IrO2‐Sb2O3 anode showed the most promising results.
Findings suggest that the developed anode materials can enhance phenol oxidation efficiency and that mixed metal oxide layer has major influence on the anode.
Among the selected metal oxide mixtures IrO2‐Sb2O3 was the most suitable under given experimental conditions.
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