Integrated Bioeletrochemical–Constructed Wetland System for Future Sustainable Wastewater Treatment
Produktdetaljer
Biographical note
Dr. Manoj Kumar is Research Associate-I (RA-I) in the Department of Hydrology, Indian Institute of Technology Roorkee, India. M.Phil. and Ph.D. from the School of Environment and Sustainable Development, Central University of Gujarat, India. He has written many high-impact factor papers and book chapters. He is a reviewer of various international journals and a member of many technical societies. He has been awarded the Rajiv Gandhi National Fellowship (2017-218) by the University Grants Commission (UGC), New Delhi, Government of India. He received the Best Oral Presentation Award at TEQIP-III sponsored 2nd International Conference on Sustainable Technologies for Environmental Management (STEM-2019) in 2019. Dr. Kumar received the NESA-Young Scientist of the Year Award 2021 from the National Environmental Science Academy, New Delhi, India, at the International Conference on Promoting Environmental Technologies for Waste Management and Sustainable Development (WMSD-2021) in 2021 at Kalinga Institute of Industrial Technology, Bhubaneswar, Odisha. His areas of interest include constructed wetlands, phytoremediation, bioelectrochemical systems, such as microbial fuel cells and microbial electrolysis cells, energy recovery from wastewater, environmental microbiology, and environmental engineering. He is presently working in the area of groundwater hydrology and energy recovery from wastewater and developing low-cost systems.
Dr. Neeraj Kumar Singh is Post-Doctoral Fellow in the Department of Biotechnology and Food Science at Durban University of Technology, Durban, South Africa. Previously, he worked as Research Associate in the Department of Bioscience and Bioengineering at the Indian Institute of Technology Roorkee, India. He earned his M.Phil. and Ph.D. in Environment and Sustainable Development from the Central University of Gujarat, India. Dr. Singh has contributed extensively to government-funded research projects under the Department of Science and Technology, Defence Research and Development Organisation, Department of Biotechnology, and BRICS countries, focusing on microbial fuel cells, bioelectrochemical systems, bio-hydrogen, and bioethanol production. Dr. Singh has authored eight high-impact research papers (average impact factor: 7.827), one edited book, and five book chapters published in reputed journals. His research has pioneered innovative pretreatment strategies for lignocellulosic biomass to recover value-added products and suppress methane emissions, thereby enhancing hydrogen production in bioelectrochemical systems. He has presented his work at numerous national and international conferences and serves as a reviewer for various prestigious international journals. Currently, Dr. Singh is involved in advancing wastewater treatment and scaling up bio-hydrogen and bioethanol production from agricultural biomass at pre-pilot and pilot stages.
Dr. Abhilasha Singh Mathuriya is Scientist D/Joint Director(s) in the Ministry of Environment, Forest and Climate Change (MoEFCC), Government of India. She has completed M.Tech. in biochemical engineering and Ph.D. (Engineering) in biotechnology. Her areas of interest include bioelectrochemical systems, waste-to-bioenergy, fermentation, and biological wastewater treatment. She has authored 61 high-impact factor papers and 18 books/book chapters. She has applied for 40 patents for various wastewater treatment reactor designs, received 21 patent grants, and managed 2 externally funded research projects from DST and DRDO.
This book provides latest information and knowledge from internationally recognized experts working in wastewater treatment field. It covers broad aspects of integrated bioeletrochemical-constructed wetland system for future sustainable wastewater treatment and resource recovery. It discusses various constructed wetland and their application in wastewater treatment and the principle and mechanism of bioelectrochemical system for wastewater treatment. The book also reviews the various types of constructed wetland integrated with bioeletrochemical and microbial fuel cells. It includes chapters on the recovery of bioelectricity and bioenergy from wastewater resource using constructed wetland by adoption of microbial fuel cell technology, recent advancements in bioelectrochemical system and microbial fuel cell technology for energy production in constructed wetland, applied bioaugmentation and bioremediation treatment technology in constructed wetland for wastewater treatment, successful models of constructed wetlands applied for water purification across the globe, and chapters on scaling up, economic sustainability, and feasibility and life cycle assessment of constructed wetland for wastewater treatment integrated with microbial fuel cells and bioelectrochemical systems. The book can be a valuable reference for researchers and professionals interested in wastewater treatment and allied fields.
Preface of Constructed wetlands.- Principal and mechanism Bioelectrochemical System.- Integration of Bioelectrochemical system and Microbial Fuel Cell Technology with constructed wetlands for wastewater purification.- Recovery of Bioelectricity and Bioenergy from wastewater resource using Constructed wetland by adoption of Microbial Fuel Cell Technology.- Recent advancement in Bioelectrochemical System and Microbial Fuel Cell Technology for higher efficiency of energy production and water purification.
This book provides latest information and knowledge from internationally recognized experts working in wastewater treatment field. It covers broad aspects of integrated bioeletrochemical-constructed wetland system for future sustainable wastewater treatment and resource recovery. It discusses various constructed wetland and their application in wastewater treatment and the principle and mechanism of bioelectrochemical system for wastewater treatment. The book also reviews the various types of constructed wetland integrated with bioeletrochemical and microbial fuel cells. It includes chapters on the recovery of bioelectricity and bioenergy from wastewater resource using constructed wetland by adoption of microbial fuel cell technology, recent advancements in bioelectrochemical system and microbial fuel cell technology for energy production in constructed wetland, applied bioaugmentation and bioremediation treatment technology in constructed wetland for wastewater treatment, successful models of constructed wetlands applied for water purification across the globe, and chapters on scaling up, economic sustainability, and feasibility and life cycle assessment of constructed wetland for wastewater treatment integrated with microbial fuel cells and bioelectrochemical systems. The book can be a valuable reference for researchers and professionals interested in wastewater treatment and allied fields.
Produktdetaljer
Biographical note
Dr. Manoj Kumar is Research Associate-I (RA-I) in the Department of Hydrology, Indian Institute of Technology Roorkee, India. M.Phil. and Ph.D. from the School of Environment and Sustainable Development, Central University of Gujarat, India. He has written many high-impact factor papers and book chapters. He is a reviewer of various international journals and a member of many technical societies. He has been awarded the Rajiv Gandhi National Fellowship (2017-218) by the University Grants Commission (UGC), New Delhi, Government of India. He received the Best Oral Presentation Award at TEQIP-III sponsored 2nd International Conference on Sustainable Technologies for Environmental Management (STEM-2019) in 2019. Dr. Kumar received the NESA-Young Scientist of the Year Award 2021 from the National Environmental Science Academy, New Delhi, India, at the International Conference on Promoting Environmental Technologies for Waste Management and Sustainable Development (WMSD-2021) in 2021 at Kalinga Institute of Industrial Technology, Bhubaneswar, Odisha. His areas of interest include constructed wetlands, phytoremediation, bioelectrochemical systems, such as microbial fuel cells and microbial electrolysis cells, energy recovery from wastewater, environmental microbiology, and environmental engineering. He is presently working in the area of groundwater hydrology and energy recovery from wastewater and developing low-cost systems.
Dr. Neeraj Kumar Singh is Post-Doctoral Fellow in the Department of Biotechnology and Food Science at Durban University of Technology, Durban, South Africa. Previously, he worked as Research Associate in the Department of Bioscience and Bioengineering at the Indian Institute of Technology Roorkee, India. He earned his M.Phil. and Ph.D. in Environment and Sustainable Development from the Central University of Gujarat, India. Dr. Singh has contributed extensively to government-funded research projects under the Department of Science and Technology, Defence Research and Development Organisation, Department of Biotechnology, and BRICS countries, focusing on microbial fuel cells, bioelectrochemical systems, bio-hydrogen, and bioethanol production. Dr. Singh has authored eight high-impact research papers (average impact factor: 7.827), one edited book, and five book chapters published in reputed journals. His research has pioneered innovative pretreatment strategies for lignocellulosic biomass to recover value-added products and suppress methane emissions, thereby enhancing hydrogen production in bioelectrochemical systems. He has presented his work at numerous national and international conferences and serves as a reviewer for various prestigious international journals. Currently, Dr. Singh is involved in advancing wastewater treatment and scaling up bio-hydrogen and bioethanol production from agricultural biomass at pre-pilot and pilot stages.
Dr. Abhilasha Singh Mathuriya is Scientist D/Joint Director(s) in the Ministry of Environment, Forest and Climate Change (MoEFCC), Government of India. She has completed M.Tech. in biochemical engineering and Ph.D. (Engineering) in biotechnology. Her areas of interest include bioelectrochemical systems, waste-to-bioenergy, fermentation, and biological wastewater treatment. She has authored 61 high-impact factor papers and 18 books/book chapters. She has applied for 40 patents for various wastewater treatment reactor designs, received 21 patent grants, and managed 2 externally funded research projects from DST and DRDO.