María C. Yeber scite author profile

Two advanced oxidation processes (AOPs), TiO2/UV/O2 and TiO2/UV/Cu (II), were used to remove color from a Kraft bleaching effluent. The optimal decoloration rate was determined by multivariate analysis, obtaining a mathematical model to evaluate the effect among variables. TiO2 and Cu (II) concentrations and the reaction times were optimized. The experimental design resulted in a quadratic matrix of 30 experiments. Additionally, the pH influence on the color removal was determined by multivariate analysis. Results indicate that color removal was 94% at acidic pH (3.0) in the presence of Cu (11) as an electron acceptor. Under this condition, the biodegradation of the effluent increased from 0.3 to 0.6. Moreover, 70% of COD (chemical oxygen demand) was removed, and the ecotoxicity, measured by Daphnia magna, was reduced. Photocatalytic oxidation to remove the color contained in the Kraft mill bleaching effluent was effective under the following conditions: short reaction time, acidic pH values, and without the addition of oxygen due to the presence of Cu (II) in the effluent. Moreover, residual Cu (II) was a minimum (0.05.mg L(-1)) and was not toxic to the next biological stage. The experimental design methodology indicated that a quadratic polynomial model may be used to representthe efficiencyfor degradation of the Kraft bleach pulp effluent by a photocatalytic process.

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Chemical and biological treatments to clean oily wastewater: optimization of the photocatalytic process using experimental design

Yeber

Paul

Soto

2012

Desalination and Water Treatment

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Catalytic activity of the SO4− radical for photodegradation of the azo dye Cibacron Brilliant Yellow 3 and 3,4-dichlorophenol: Optimization by application of response surface methodology

Yeber¹,

Díaz²,

Fernández³

2010

Journal of Photochemistry and Photobiology A: Chemistry

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María C. Yeber

Application of electrocoagulation for the efficient pollutants removal to reuse the treated wastewater in the dyeing process of the textile industry

Optimization by factorial design of copper (II) and toxicity removal using a photocatalytic process with TiO2 as semiconductor

Decolorization of Kraft Bleaching Effluent by Advanced Oxidation Processes Using Copper (II) as Electron Acceptor

Chemical and biological treatments to clean oily wastewater: optimization of the photocatalytic process using experimental design

Catalytic activity of the SO4− radical for photodegradation of the azo dye Cibacron Brilliant Yellow 3 and 3,4-dichlorophenol: Optimization by application of response surface methodology

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