Abstract
In this work, a regression model obtained from response surface methodology (RSM) was proposed for the electrocoagulation (EC) treatment of textile wastewater. The Reactive Black 5 dye (RB5) was used as a model dye to evaluate the performance of the model design. The effect of initial solution pH, applied current and treatment time on RB5 removal was investigated. The total number of experiments designed by RSM amounted to 27 runs, including three repeated experimental runs at the central point. The accuracy of the model was evaluated by the F-test, coefficient of determination (R2), adjusted R2 and standard deviation. The optimum conditions for RB5 removal were as follows: initial pH of 6.63, current of 0.075 A, electrolyte dose of 0.11 g/L and EC time of 50.3 min. The predicted RB5 removal was 83.3% and the percentage error between experimental and predicted results was only 3-5%. The obtained data confirm that the proposed model can be used for accurate prediction of RB5 removal. The value of the zeta potential increased with treatment time, and the X-ray diffraction pattern shows that iron complexes were found in the sludge.
Highlights
Reactive dyes are widely used in the textile industry because of their vivid colours and easy attachment to textile fibres (Hassan et al )
The regression model is presented in Equation (1), where Yact represents Reactive Black 5 dye (RB5) removal efficiency and X1, X2, X3 and X4 are pH, current, EC time and supporting electrolyte dosage, respectively, after excluding insignificant terms
The actual values were close to the predicted values, showing that the model is reliable to describe the effect of the parameters on RB5 removal efficiency
Summary
Reactive dyes are widely used in the textile industry because of their vivid colours and easy attachment to textile fibres (Hassan et al ). Approximately 15% of unutilised dyes found in the dye bath effluent are the result of the low fixation of reactive dyes on fibres during the dyeing process (Wallace ). This amount is substantially dangerous for human beings and aquatic life, as well as the environment in general. Reactive Black 5 (RB5) was selected as a reactive model dye because it is widely used in the textile industry and constitutes 50% of the total world demand of reactive dyes (Schumacher ).
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