Utilization of Response Surface Methodology in Electrocoagulation for Process Optimization and Parametric Analysis

The implementation of response surface methodology (RSM) in electrocoagulation, used for treatment of industrial and synthetic wastewater, is reviewed. The main significance of RSM is to analyze the parametric effect on procedure and process optimization. Several parameters including temperature, electrode distance, pollutant concentration, and mixing speed were investigated in different water samples.

Abstract

Electrocoagulation (EC) is a well-recognized and feasible treatment technique for wastewater treatment. The process optimization and analysis of process parameters of EC not only aid to scale up the EC process at an industrial level but also help to explore the economic and environmental considerations to achieve higher efficiency. Response surface methodology (RSM) is a prominent chemometric approach for both process optimization and evaluation of different factors for the removal of target pollutants from wastewater. This review provides a thorough examination of notable scholarly works that focus on the use of the RSM in EC for the purpose of wastewater treatment. Furthermore, the current advancements in implementing the RSM approach not only for standalone EC processes but also for the case are described where it is being practiced as a part in the integrating system for wastewater treatment.

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