Electrochemical oxidation of a textile dye wastewater using a Pt/Ti electrode

Textile dye wastewater (TDW) from a reactive, azo dyeing process was treated by an electrochemical oxidation method using Ti/Pt as anode and stainless steel 304 as cathode. Due to the strong oxidizing potential of the chemicals produced (chlorine, oxygen, hydroxyl radicals and other oxidants) when t...

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Bibliographic Details
Published in:Journal of Hazardous Materials
Main Authors: Vlyssides, AG, Loizidou, M, Karlis, PK, Zorpas, AA, Papaioannou, D
Format: Article in Journal/Newspaper
Language:English
Published: ELSEVIER SCIENCE BV 1999
Subjects:
Azo dye
Color removal
Electrolysis treatment
Textile
Ti/Pt electrode
Wastewater
Engineering
Environmental
Civil
Environmental Sciences
Biological post treatment
Detoxification
Electrochemical oxidation
Textile dye wastewater
Biodegradation
Chemical oxygen demand
Color removal (water treatment)
Electrochemical electrodes
Electrolysis
Industrial wastes
Oxidation
Platinum
Textiles
Titanium
Wastewater treatment
Azo dyes
dye
electrochemical technique
textile industry application
article
electrode
reaction analysis
technique
textile industry
waste water management
Coloring Agents
Electrodes
Environmental Pollution
Humans
Oxidation-Reduction
Waste Disposal
Fluid
Gadus morhua
effluent treatment
water pollution
Online Access:http://dspace.lib.ntua.gr/handle/123456789/13152
https://doi.org/10.1016/S0304-3894(99)00130-2
Description
Summary:Textile dye wastewater (TDW) from a reactive, azo dyeing process was treated by an electrochemical oxidation method using Ti/Pt as anode and stainless steel 304 as cathode. Due to the strong oxidizing potential of the chemicals produced (chlorine, oxygen, hydroxyl radicals and other oxidants) when the wastewater was passed through the electrolytic cell the organic pollutants were oxidized to carbon dioxide and water. A number of experiments were run in a batch, laboratory-scale, pilot-plant, and the results are reported here according to residence time and initial addition of HCl in raw wastewater. When of 2 ml of HCl 36% were added and after 18 min of electrolysis at 0.89 A/cm(2), chemical oxygen demand (COD) was reduced by 86%, biochemical oxygen demand (BOD,) was reduced by 71%, ADMI color units were reduced by 100%, and TKN was reduced by 35%. The biodegradability of the wastewater was improved because the COD/BOD ratio decreased from 2.16 to 1.52. At the same time the efficiency of the electrode was about 170 g h(-1) A(-1) m(-2). and the mean energy consumption was 21 kW h/kg of GOD. These results indicate that this electrolytic method could be used for effective TDW oxidation or as a feasible detoxification and color removal pretreatment stage for biological post treatment. (C) 1999 Elsevier Science B.V. All rights reserved.

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