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- Title
Real indigo dyeing effluent decontamination using continuous electrocoagulation cell: Study and optimization using Response Surface Methodology.
- Authors
Hendaoui, Kamel; Ayari, Fadhila; Ben Rayana, Iyadh; Ben Amar, Raja; Darragi, Fadhila; Trabelsi-Ayadi, Malika
- Abstract
In the present study, the response surface methodology (RSM) model was applied to study and perform the treatment of real indigo dyeing effluent by continuous electrocoagulation process using iron electrodes. The main effect of three parameters: initial pH, inlet flow rate and applied voltage along with their interaction on pollutants removal were evaluated. Results show that the increase of applied voltage and the decrease of inlet flow rate enhance the efficiencies of the pollutants removals. According to P values and analysis of variance ANOVA, there is a good adjustment between the second order regression models and experimental data for all responses. From surface plot analysis, it was well observed that the best pollutants removals were achieved at neutral pH range with the lowest flow rate and the highest voltage. When the conductivity removal was neglected, with the optimal parameters values: 7.58 pH, 1 L/min inlet flow rate and 101 V applied voltage the color and COD removal were achieved as 93.77% and 92.07% respectively (fixed target equal to 95%). However, at optimum EC conditions: pH 7.2, inlet flow rate 1.1 L/min and 66 V applied voltage: 89.2%, 76.1% and 29.76% of color, COD and conductivity removal were achieved respectively with only 0.527 US$ per m3 of treated effluent as total cost. In the actual study, with the EC process the conductivity removal was improved by 60% compared with the actual biological used process.
- Subjects
ENVIRONMENTAL protection; WASTEWATER treatment; RENEWABLE energy sources; ELECTROCOAGULATION (Chemistry); AQUEOUS solutions
- Publication
Process Safety & Environmental Protection: Transactions of the Institution of Chemical Engineers Part B, 2018, Vol 116, Issue Part B, p578
- ISSN
0957-5820
- Publication type
Article
- DOI
10.1016/j.psep.2018.03.007