Optimization of treatment efficiency of UV/H2O2 process on simulated textile industry wastewater

The present study involves optimization of UV/H2O2 process on a simulated dye bath effluent by varying initial H2O2 concentration, pollution load, and pH. The process was optimized by four factors and three levels of Box–Behnken design coupled with response surface methodology. During the experiment...

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Bibliographic Details
Published in:Desalination and water treatment 2016-12, Vol.57 (56), p.27169-27180
Main Authors: Manikandan, P., Palanisamy, P.N., Baskar, R., Sivakumar, P., Sakthisharmila, P.
Format: Article
Language:English
Subjects:
Aromatic compounds
Box–Behnken design
COD
Color
Color removal
Degradation
Effluent
Hydrogen peroxide
Inorganic acids
Irradiation
Pollution load
Textile industry
Textile industry wastewaters
UV/H2O2
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Summary:The present study involves optimization of UV/H2O2 process on a simulated dye bath effluent by varying initial H2O2 concentration, pollution load, and pH. The process was optimized by four factors and three levels of Box–Behnken design coupled with response surface methodology. During the experiment, color removal and degradation studies were also performed to ensure the treatment efficiency. The results obtained show that the color removal efficiency can be achieved within a short time due to the degradation of the structure which is more susceptible to oxidation. Then slower and gradual degradation of the simple and conjugated aromatic compounds takes place. In the first 5 min of the irradiation of the dyes, the pH value decreased from 11 to 9.5 and for another pH value decreased from 9 to 7.01. The drop in the pH value is mainly due to the formation of organic as well as inorganic acid as a degradation product. Under the optimum operating conditions such as pollution load of 64%, initial concentration of H2O2 0.6 M, initial pH 8, and treatment time of 81 min the predicted removal efficiencies are 98.77 and 86.11% for Color removal and COD removal, respectively.
ISSN:1944-3986
1944-3994
1944-3986
DOI:10.1080/19443994.2016.1172983