The textile industry is highly water-intensive, with significant water usage in processes such as dyeing, bleaching, and finishing. This results in the generation of large volumes of wastewater containing various pollutants, including dyes, heavy metals, surfactants, and microplastics.

Textile manufacturing involves various types of fabrics, each with unique effluent characteristics. Cellulosic materials like cotton, rayon, and linen generate effluents rich in organic matter and dyes. Protein fabrics such as wool, silk, and mohair often produce wastewater containing natural oils and dyes. Synthetic fabrics like nylon, polyester, and acrylic result in effluents with high levels of chemical additives, dyes, and microplastics. Key processes include sizing, desizing, scouring, bleaching, dyeing, printing, and finishing, each contributing different pollutants to the wastewater.

Textile wastewater is characterized by high levels of Biological Oxygen Demand (BOD), color, and toxic substances. The presence of dyes and heavy metals poses significant environmental risks due to their carcinogenic and bioaccumulative potential. Additionally, the industry faces challenges in managing the diverse composition of wastewater, which requires tailored treatment solutions.

We deliver tailored wastewater treatment solutions specifically designed for the textile industry. Utilizing cutting-edge technologies like specific frequency of dissociation processes, electrox reactors, advanced oxidation processes, membrane filtration, and biological treatments, we address the unique challenges posed by textile effluents. Our comprehensive services include primary treatment, innovative oxidation processes, robust membrane-based recovery, and ZLD systems, ensuring both efficiency and sustainability. Our innovative approaches help textile manufacturers minimize their environmental impact while optimizing operational performance.