Decontamination of Subsurface Water Resources System using Contemporary Technologies

Decontamination of Subsurface Water Resources System using Contemporary Technologies provides a comprehensive approach to addressing the decontamination of subsurface water resources. It covers field experimentations, modelling strategies, remote-sensing methods, and the application of artificial intelligence. This broad coverage ensures that readers gain a well-rounded understanding of the topic. Purchasing this book offers a unique opportunity to access up-to-date, comprehensive, and scientifically grounded insights into subsurface water decontamination. For the student, researcher, policymaker, or industry practitioner, this book will inform your work and contribute to positive change in the field of water resource management. Includes up-to-date assessment tools for water quality evaluation and advanced modelling techniques forContains unique resources on the restoration of surface water resources, with step-by-step analysis to guide studentsCovers theory and practice by offering global case studies with applicationsOffers thorough overview of Machine Learning (ML)/ Artificial Intelligence (AI); GIS and remote sensing; sensors application to achieve sustainable groundwater management INDICE: 1. Fate and Transport of Emerging Contaminants in the Vadose Zone2. Characterization Techniques for Identifying Emerging Pollutants in the Vadose Zone3. Vadose Zone Remediation Strateg Dries for Emerging Contaminants4. Future Trends and Challenges in Managing Emerging Pollutants in the Vadose Zone5. Field Scale Remediation Technologies for Vadose Zone contaminated with Chromium Contaminants6. Phytoremediation for extraction of heavy metals from contaminated soil7. Fungal Based Bioremediation Strategies for Vadose Zone Contaminant Cleanup8. Nanotechnology Applications for Vadose Zone Pollutant Removal9. Monitoring and Assessment of Remediation Effectiveness in the Vadose Zone10. Advanced Oxidation Processes for Treating Vadose Zone Pollutants11. Monitoring and Assessment of Remediation Effectiveness in the Vadose Zone12. Fundamentals of Contaminant Transport and Modelling Contaminant Dispersion in Aquifer systems13. Hydrogeological Factors Influencing Contaminant Transport in Aquifers14. Emerging Contaminants and their Behavior in Aquifer Systems.15. Groundwater Vulnerability Assessment for Contaminant Transport Mitigation16. Management and Remediation of Agrochemicals using UAV and IoT based techniques.17. Cost estimation of various ex-situ remediation systems18. Engineered bioremediations for decontamination of aquifers19. Cost estimation of various in-situ remediation systems20. Limitations of in-situ remediation systems for groundwater management21. Impact of climate change on natural attenuation process of contaminated aquifers22. Constitutional laws for subsurface water pollution23. How should industries control subsurface pollution?24. Policy framework to control subsurface contamination25. Public participation to management contaminated aquifer26. Aquifer management for achieving various objectives of Sustainable Development Goal (SDG)27. Fate of persistent organic pollutants during their photocatalytic removal28. Removal strategies for organic pollutants using industrial solid waste29. Degradation pathways for antibiotics in water30. Optical sensing of pollutants in water

• ISBN: 978-0-443-26639-3
• Editorial: Elsevier
• Encuadernacion: Rústica
• Páginas: 250
• Fecha Publicación: 01/01/2025
• Nº Volúmenes: 1
• Idioma: Inglés