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This study presents an application of artificial neural networks (ANNs) to   predict the dye removal efficiency (color and chemical oxygen demand value)   of Electrocoagulation process from Sunfix Red S3B aqueous solution. The   Bayesian regulation algorithm was applied to train the networks with   experimental data including five factors: pH, current density, sulphate   concentration, initial dye concentration (IDC), and electrolysis time. The   predicting performance of the ANN models was validated through the low root   mean square error value (9.844 %), mean absolute percentage error (13.776 %)   and the high determination coefficient value (0.836). Garson, Connection   weight method and neural interpretation diagram were also used to study the   influence of input variables on dye removal efficiency. For decolorization,   the most effective inputs are determined as current density, electrolysis   time and initial pH, while COD removal is found to be strongly affected by   initial dye concentration and sulphate concentration. Through these steps, we   demonstrated ANN’s robustness in modeling and analysis of electrocoagulation   process

Modeling the removal of Sunfix Red S3B from aqueous solution by electrocoagulation process using artificial neural network