Handbook of textile effluent remediation /
edited by Mohd Yusuf.
- First edition.
- 1 online resource (454 pages) : 182 illustrations
chapter 1 Textile Effluents: Types and Prominent Hazards -- chapter 2 Textile Industry and Effluents: Present Scenario, Governing Laws, and Initiatives toward the Road Ahead -- chapter 3 Ecological Impacts of Azo Dyes and Environmental Considerations -- chapter 4 Textile Effluent Treatment Using Adsorbents -- chapter 5 Ligninolytic Enzyme Production by Microbes and Their Role in Textile Dye Decolorization -- chapter 6 Catalytic Ozonation Facilitated by Carbon Aerogel Materials for Textile Dyeing Wastewater Treatment and Reuse -- chapter 7 Emerging Technologies for Source Reduction and End-of-Pipe Treatments of the Cotton-Based Textile Industry -- chapter 8 Recent Trends and Future Prospects in Bioremediation of Synthetic Dyes: A Review -- chapter 9 Textile Effluent Remediation by Membrane-Based Techniques -- chapter 10 Green Materials from Plant Sources for the Remediation of Methylene Blue Dye: An Emerging Wastewater Treatment Technology -- chapter 11 Graphene Oxide Nanocomposites for Azo Dye Removal from Wastewater -- chapter 12 Insights into Dye Confiscation by Low-Cost Adsorbents for Textile Effluent Remediation: A Review -- chapter 13 Microorganisms for Textile Effluent Remediation -- chapter 14 Carbon Aerogel Materials for Real Textile Dyeing Wastewater Treatment via Catalytic Ozonation: An Industrial Trial Report.
Nowadays, textile units utilize a number of dyes, chemicals, reagents, and solvents to impart the desired quality to fabrics, and generate a substantial quantity of effluents/contaminants, which cause severe environmental problems if disposed of without proper treatment. In view of several surveys carried out through research papers, books, technical articles, and general reports published in high-repute academic societies, Handbook of Textile Effluent Remediation provides a detailed narration of the acceptable methods of treating textile wastewater, such as active ozonation, membrane filtration, and adsorption. The book discusses emerging and suitable treatment systems that are viable, efficient, and economical. In this context, it provides an array of several traditional as well as advanced treatment practices for textile effluents. It covers research-oriented descriptions of textile wastewater treatment that can be adopted by scientific communities, academicians, and undergraduate and postgraduate students of industrial engineering, materials science and engineering, physics, and chemistry. It offers several interesting methodologies and aspects of current dimensional research through user-friendly content, tables, and figures and provides up-to-date literature on important and useful information for textile effluents, their impact on the environment, and advanced remediation processes. Needless to say, this book is of immense use to global researchers, academicians, and consultants engaged in various streams of wastewater treatment science.