This book addresses the escalating demand for advanced tertiary wastewater treatment, driven by environmental, regulatory, and public health challenges, with a particular focus on techniques and methodologies that ensure superior effluent quality, highlighting the imperative for sustainable water management. This book is expected to be a ground-breaking exploration of these pressing challenges and to stand out as a beacon of knowledge and innovation in the field of environmental engineering. What will make it truly unique is the comprehensive approach that bridges the gap between environmental regulations, demographic trends, contaminant characterization, and cutting-edge tertiary treatment technologies. It is not just another technical manual; it is a dynamic and engaging narrative that weaves together science, policy, and technology into a compelling story.
In response to the complex web of environmental regulatory and public health challenges, the focus on advancing tertiary wastewater treatment units has intensified. The imperative for superior effluent quality has been accentuated by a growing emphasis on treated wastewater reuse and the imposition of stringent discharge standards. Consequently, the enhancement of existing secondary treatment techniques and the integration of supplementary tertiary processes have become indispensable. The unwavering commitment to address the urgent need for advanced tertiary wastewater treatment sets this book apart. It is not just about meeting water quality standards; it is about preserving the delicate balance of aquatic ecosystems, efficiently managing the surging volume of wastewater, and confronting the emergence of new contaminants head-on. This book is expected to be a roadmap for the future, guiding us toward a more sustainable and responsible approach to water management.
Coagulation-Flocculation in Industrial Wastewater Treatment: Evolution,
Integration, and a Case Study from CETPs, Kolkata.- Ion Exchange Processes.-
Ion Exchange Methods for Heavy Metal Remediation: Advances and Applications.-
Adsorption in Industrial Wastewater Reclamation.- Addressing the Role of
Advanced Adsorbent Materials in the Removal of Heavy Metals from Wastewater.-
Recent Advances in Adsorptive Removal of Nutrients from Wastewater.- Advanced
Membrane Filtration Techniques.- Filtration, Fouling, and Cleaning of Ion
Exchange Membranes.- Advances in Polymeric Mixed Matrix Membranes for
Mitigating Fouling during Water Reclamation.- Artificial Intelligence in
Membrane Filtration Processes.- Innovative Applications of Membrane-Based
Electrodialysis for Desalination and Wastewater Reuse.- Microbial Fuel
Cell-Based Integration for Oily Wastewater Treatment, Electricity Generation,
and Resource Recovery.- Fenton-based Microbial Fuel Cell for Tertiary
Treatment of Wastewater.- Valorising Nutrients from Wastewater through MFC
Hybridization with Hydroponics.- Advanced Techniques for Wastewater
Disinfection and Treatment.
Dr. Gourav Dhar Bhowmick is an esteemed environmental engineering expert, celebrated for his ground-breaking contributions. He is an Assistant Professor from the Indian Institute of Technology (IIT) Kharagpur, India. His pioneering work encompasses advanced bio-electrochemical systems for wastewater treatment and innovative 3D aqua-agricultural techniques. Dr. Gourav's multidisciplinary approach extends to integrated designs of microbial fuel cell (MFC) and membrane bioreactor (MBR) systems, focusing on real-world wastewater treatment and bio-energy recovery. Currently, he is dedicated to shaping the future of aquaculture through bio-engineering solutions, emphasizing sustainable materials and smart aquaponics systems for urban farming. His commitment to environmental remediation includes end-of-pipe treatments, highlighting pollutant removal and by-product recoveryan exemplar of environmental stewardship.
Dr hab. in. Grzegorz Pasternak is an Associate Professor at Wrocaw University of Science and Technology, Poland, leading the Laboratory of Microbial Electrochemical Systems (L-MES). His research focuses on microbial fuel cells, electrofermentation, and biosensors, aiming to develop sustainable technologies for waste-to-energy conversion and environmental monitoring. In recent years, his group has been developing bioelectrochemically stimulated synthesis of biosurfactants and the degradation of waste cooking oil and petroleum. His work has been supported by approximately 1.5 million in funding, including support from NCN, NAWA, and international sources. He has contributed to the COST Action and a COST Innovation Grant focused on commercialising microbial fuel cell technology. He is an Associate Editor of Energy Nexus, Frontiers in Microbiology, and Chemical Engineering Journal: Green and Sustainable.
Mr. Geophry Wasonga Anyango is an accomplished Water and Environmental Engineer recognized for his innovative contributions to sustainable water management and irrigation systems. He holds a Master of Science by Research from the Indian Institute of Technology (IIT) Kharagpur, India, and a Bachelor of Science in Soil, Water, and Environmental Engineering from Jomo Kenyatta University of Agriculture and Technology, Kenya. His research focuses on irrigation water quality indexing, membrane technologies, and treatment processes that enhance water efficiency and inform effective policy. With extensive hands-on experience in Israel and the United States, and leadership roles in international agricultural training programs, Mr. Anyango exemplifies a blend of technical excellence, global perspective, and commitment to advancing environmental sustainability. Currently, he is looking forward to shaping the future of water management through innovation, research, and sustainable engineering solutions that promote climate resilience and improved agricultural productivity.
