ABSTRACT
Textile dyes have been used in dyeing and converting fibers into commercial substances. These processes include the dyeing of both manmade and natural fibers to produce permanent coloration for the textile production industry. Electrochemical advance oxidation processes have been implemented for efficient anodic oxidation of textile dyes. The manufacturing of hydroxyl radicals is accomplished with the addition of external chemicals for degrading the organic textile pollutants. Electrochemical treatments of methylene blue (MB) become indirectly decolorized by using a Pt electrode under a strong electrolyte where numerous parameters have been optimized to achieve maximum elimination of MB. Advanced electrochemical oxidation strategies are therefore used to improve the chemical oxidation of textile dyes from wastewater. This method helps to enhance the remediation of textile wastewater. Electrochemical advanced oxidation processes had been conducted on different textile dyes with different anode substances because effective oxidizing agents were produced, and these include chlorine, oxygen, hydroxyl radicals, and other oxidants.
