Electrochemical oxidation of an acid dye by active chlorine generated using Ti/Sn(1−x)Ir x O2 electrodes
The generation of active chlorine on Ti/Sn(1-x)Ir x O2 anodes, with different compositions of Ir (x = 0.0,0.0,0.10 and 0.30 ), was investigated by controlled current density electrolysis. Using a low concentration of chloride ions (0.05 mol L) and a low current density (5 mA cm) it was possible to p...
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| Veröffentlicht in: | Journal of applied electrochemistry 2007-05, Vol.37 (5), p.583-592 |
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| container_title | Journal of applied electrochemistry |
| container_volume | 37 |
| creator | Oliveira, Flavio H. Osugi, Marly E. Paschoal, Fabiana M. M. Profeti, Demetrius Olivi, Paulo Zanoni, Maria Valnice Boldrin |
| description | The generation of active chlorine on Ti/Sn(1-x)Ir x O2 anodes, with different compositions of Ir (x = 0.0,0.0,0.10 and 0.30 ), was investigated by controlled current density electrolysis. Using a low concentration of chloride ions (0.05 mol L) and a low current density (5 mA cm) it was possible to produce up to 60 mg L of active chlorine on a Ti/Sn0.99Ir0.01O2 anode. The feasibility of the discoloration of a textile acid azo dye, acid red 29 dye (C.I. 16570), was also investigated with in situ electrogenerated active chlorine on Ti/Sn(1-x)Ir x O2 anodes. The best conditions for 100% discoloration and maximum degradation (70% TOC reduction) were found to be: NaCl pH 4, 25 mA cm and 6 h of electrolysis. It is suggested that active chlorine generation and/or powerful oxidants such as chlorine radicals and hydroxyl radicals are responsible for promoting faster dye degradation. Rate constants calculated from color decay versus time reveal a zero order reaction at dye concentrations up to 1.0 X 10 mol L. Effects of other electrolytes, dye concentration and applied density currents also have been investigated and are discussed. |
| doi_str_mv | 10.1007/s10800-006-9289-6 |
| format | Article |
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It is suggested that active chlorine generation and/or powerful oxidants such as chlorine radicals and hydroxyl radicals are responsible for promoting faster dye degradation. Rate constants calculated from color decay versus time reveal a zero order reaction at dye concentrations up to 1.0 X 10 mol L. 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The best conditions for 100% discoloration and maximum degradation (70% TOC reduction) were found to be: NaCl pH 4, 25 mA cm and 6 h of electrolysis. It is suggested that active chlorine generation and/or powerful oxidants such as chlorine radicals and hydroxyl radicals are responsible for promoting faster dye degradation. Rate constants calculated from color decay versus time reveal a zero order reaction at dye concentrations up to 1.0 X 10 mol L. 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| title | Electrochemical oxidation of an acid dye by active chlorine generated using Ti/Sn(1−x)Ir x O2 electrodes |
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