Buch, Englisch, 488 Seiten, Format (B × H): 178 mm x 254 mm, Gewicht: 1057 g
Emerging Approaches with Potential Resource Recovery Options
Buch, Englisch, 488 Seiten, Format (B × H): 178 mm x 254 mm, Gewicht: 1057 g
ISBN: 978-1-032-45021-6
Verlag: CRC Press
Giving an account of successfully applied and recently developed green remediation technologies for water pollution control, this book describes the scope and applications of nature-based wastewater treatment technologies for environmental sustainability. The major focus is on associated eco-environmental concerns, recent technological developments, field studies, lessons learned, sustainability concerns, and future challenges. It also deals with the development of valuable bioresources together with wastewater treatment for the circular economy.
This book:
- Covers nature-based wastewater treatment systems for the efficient management of wastewater for the protection of precious water resources.
- Includes development and utilization of useful bioresources, bioenergy, and value-added products together with wastewater treatment for the circular economy.
- Discusses technological aspects such as design, operation, and maintenance, eco-friendliness, effectiveness, and sustainability concerns.
- Highlights technological advancements, field experiences, research gaps, recent developments, challenges, and future directions for further improvements.
- Reviews field studies and challenges between pollution sources, exposure pathways, and impacts on environmental quality and human health.
This book is aimed at graduate students and researchers in environmental engineering and sciences, environmental microbiology, and biotechnology.
Zielgruppe
Academic and Postgraduate
Autoren/Hrsg.
Fachgebiete
Weitere Infos & Material
1. Water present and future: Prospects for overcoming scarcity. 2. Nature-Based Wastewater Treatment Technologies: Concept, Understanding, Opportunities and Future Prospectus. 3. Constructed Wetlands as an emerging and effective wastewater treatment technology for decentralized locations. 4. Use of nature-based technologies for the treatment of wastewater from municipal slaughterhouse. 5. Use of plant-based coagulants for wastewater treatment in underdeveloped communities: sources, processes, effectiveness and associated mechanism. 6. Phytoremediation of organic and inorganic contaminants from industrial wastewater. 7. Activity and role of different extracellular enzymes for deterioration of pollutant within the root zone of macrophytes. 8. Integration of nature-based wastewater treatment technologies with other available technologies as a tertiary treatment unit. 9. Reuse of treated water for agricultural activities: Situation, opportunities and environmental risks and associated health problems. 10. PGPR of assisted phytoremediation of Industrial Wastewater for Environmental Sustainability. 11. Role of biosurfactant in wastewater treatment: Current research and future. 12. Microbial Adsorbent for heavy metal removal from wastewater for environmental safety. 13. Microbial-assisted phytoremediation of industrial wastewater recycling and reuses for overcoming water scarcity. 14. Wastewater treatment through exopolysaccharides-producing microbes. 15. Agro-industrial waste-based adsorbent for wastewater treatment: current pilot and industrial-scale applications. 16. Bacterial ligninolytic enzymes as green and versatile agents for wastewater treatment. 17. Application of water hyacinth in toxic metal phytoremediation with special reference to arsenic. 18. Wastewater remediation via Actinomycetes: Current trends and future prospects. 19. Integration of natural coagulants with heterogeneous photo-Fenton processes for an agro-industrial wastewater treatment. 20. Transitioning existing wastewater treatment systems toward a circular economy by increasing resource circularity. 21. Bioconversion of lignocellulosic waste: chemicals and biofuels biorefinery concept. 22. Agro-residue wastes as a key to unlocking future bio-energy potentials. 23. Circular Economy and Sustainability: The Role of Technology, Producers, Consumers and Policies to Achieve Sustainable Development Goals. 24. Constructed Wetlands Coupled with Microbial Fuel Cells for Bioelectricity Generation: Possible Applications and Challenges. 25. Nature Based Solutions: Circularity assessment through LCA approach. 26. Biorefinery: Algal-based valorisation of wastewater for nutrients recovery and energy production. 27. Bioconversion of lignocellulose: Current trends in biofuels, platform chemicals for biorefinery concept. 28. Macrophytes as a potential source of food and fodders for humans and animals due to their high biochemical composition. 29. Valorization of Bio-Based Waste through Research and Community Service in University towards Circular Economy Transition and Future Sustainability: Case Study in Indonesia.
