The book is a technical publication that explores the use of ozonation and bioreactors in the treatment of wastewater. The book focuses on the processes of mineralization and detoxification, and how they can be achieved through the use of ozone and bioreactor technology. It may cover topics such as the principles and mechanisms of ozone and bioreactor treatment, the selection and design of ozonation and bioreactor systems, and the evaluation of their performance for the removal of various pollutants from wastewater. The book is aimed at researchers, engineers, and practitioners in the field of environmental engineering and water treatment, and provides practical information and guidance for the application of ozonation and bioreactor technology for the mineralization and detoxification of wastewater.

Since the 1800s, the commercial manufacturing of synthetic dyes has been practiced. With the

course of time, they've been tweaked to be resistant to physical and chemical changes,

as well as to persist for years without fading ..

Fabrics' durability has been enhanced due to various features, and the textile sector

has thrived in the recent years. However, such synthetic dyes are also resistant to

natural processes when they become part of the environment. The textile industry is one

of the leading industries in releasing polluted effluents, including dyes, salts, and

other organic complexes, in the soil and water bodies. It hence poses severe risks to the aquatic

lives and environment. Since only 50% of the applied dyes get utilized in the fabric, the rest is

released with huge volumes of water into aquatic bodies causing severe environmental hazards due to

their high pH, temperature, COD (Chemical Oxygen Demand), BOD (Biochemical Oxygen Demand) and

TOC (Total Organic Carbon) levels . Textile enterprises are typically located near the sea, owing to ease of

transportation. The hazardous effluents discharged by the industries pose a significant

threat to the marine ecosystem. It also substantially affects the photosynthesis of some

hydrophytes by inhibiting light penetration, lowering gas solubility and water quality

. It's challenging to get rid of these compounds which are now a threat

to the environment and workers in the textile industry.

Further, the textile industry has grown to be one of the most significant water

consuming sectors. Water usage in the dyeing process is reported to range between 50 and

240 liters per kilogram of finished material, depending on the shade, procedure,

and chemicals employed . A colored cotton T-shirt (of 250 g) has a water

footprint of more than 2000 liters, which includes water used from the cotton plantation until the

T-shirt is placed on shop shelves, including the procedures of carding, spinning, weaving,

dyeing, printing, and delivery