Optimization of material and energy consumption for removal of Acid Red 14 by simultaneous electrocoagulation and electroflotation

Decolorization of wastewater of industries which consume dye is an environmental priority. Electrocoagulation and electroflotation methods are appropriate for treatment of these wastewaters. This study investigates the effect of four parameters, electrical conductivity, current density, initial dye...

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Bibliographic Details
Published in:Water science and technology 2016-01, Vol.73 (1), p.192-202
Main Authors: Hooshmandfar, Amin, Ayati, Bita, Khodadadi Darban, Ahmad
Format: Article
Language:English
Subjects:
Acids
Aluminium
Aluminum
Aluminum - chemistry
Analytical methods
Anode sludge
Anodic dissolution
Azo Compounds - isolation & purification
Bubble barriers
Bubbles
Chemicals
Chromatography
Coagulation
Color removal
Current density
Decoloring
Decolorization
Desalination
Dyes
Efficiency
Electric Conductivity
Electrical conductivity
Electrical resistivity
Electrochemical Techniques
Electrocoagulation
Electrodes
Electroflotation
Electrolysis
Energy
Energy consumption
Environmental management
Hazardous materials
Industry
Lignin
Liquid chromatography
Mass spectroscopy
Methods
Parameters
pH effects
Phenols
Pulp mill effluents
Removal
Sludge
Sludge disposal
Spectroscopic analysis
Suspended particulate matter
Textile industry wastewaters
Textiles
Total suspended solids
Ultraviolet radiation
Waste Water - analysis
Wastewater
Wastewater treatment
Water Pollutants, Chemical - isolation & purification
Water Purification - methods
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Summary:Decolorization of wastewater of industries which consume dye is an environmental priority. Electrocoagulation and electroflotation methods are appropriate for treatment of these wastewaters. This study investigates the effect of four parameters, electrical conductivity, current density, initial dye concentration, and initial pH, on the performance of a simultaneous electrocoagulation/electroflotation system for removal of Acid Red 14. The optimum values of these parameters were determined based on the amount of electrical energy and aluminum consumption and the best performance of coagulation and bubble generation. The optimum condition was revealed to be electrical conductivity=1,600 μS/cm, current density=60 mA/cm2, initial dye concentration=185 mg/L and initial pH=7. After less than 180 min of electrolysis, 90% dye removal was achieved with a specific energy consumption=102 kWh/kg dyeremoved, anode dissolution=2.09 kg Al/kg dyeremoved and sludge total suspended solids=15,050 mg/L. Liquid chromatography-UV-mass spectroscopy analyses were conducted on samples of raw and treated wastewater. Results showed that intermediate compounds formed from the breaking of the dye molecules. The advantages of this method are a low material and energy consumption. The amount of produced sludge was low; consequently sludge disposal and management costs would be reduced. This method should be used cautiously for treatment of textile wastewater due to the formation of intermediate compounds.
ISSN:0273-1223
1996-9732
DOI:10.2166/wst.2015.477