The increasing demand for sustainable wastewater treatment has driven research into innovative, eco-friendly methods for contaminant removal. This study explores the electrochemical magnetization of wastewater as an efficient solution for cleaner production. By applying an external magnetic field during electrochemical treatment, the magnetic properties of contaminants are enhanced, facilitating their removal from wastewater. Key parameters, such as electrode material, current density, and magnetic field intensity, were optimized to achieve maximum removal efficiency of heavy metals, organic pollutants, and suspended solids. Experimental results demonstrated that electrochemical magnetization improved pollutant removal by over 30% compared to conventional methods, while reducing chemical consumption and sludge production. Furthermore, this technique minimizes the environmental impact by allowing for the recovery and reuse of certain contaminants. The findings suggest that electrochemical magnetization of wastewater is a promising approach for cleaner production, aligning with sustainable industrial practices and environmental preservation goals.