Providing an understanding of the fate and mitigation strategies for emerging and geogenic contaminants in the groundwater: removal techniques and mitigation approaches; treatment strategies, including bioremediation and natural attenuation; environmental assessment, groundwater vulnerability, health effects and regulations.
Auteur
Dr. Manish Kumar is an assistant professor at the Indian Institute of Technology Gandhinagar, Gujarat, India. He earned his Ph.D in Environmental Engineering from the university of Tokyo, Japan, and has received many prestigious fellowships, such as the Water Advanced Research and Innovation (WARI) Fellowship, Japan Society for the Promotion of Science (JSPS) foreign research fellowship, Brain Korea (BK)-21 post-doctoral fellowship, Monbukagakusho scholarship, Linnaeus-Palme stipend from SIDA, Sweden, Research Fellowship from CSIR, India, etc. Dr. Kumar is active in the fields of Hydrology, Hydro-geochemistry, Contaminant transport and modeling, Heavy metal speciation and toxicity, Isotope dilution techniques and fingerprinting, Emerging contaminants and water supply, Water Resources Management. He has served as a lead PI of several projects funded by the Asia Pacific Network (APN). He is an associate editor of Groundwater for Sustainable Development (Elsevier) and Hydrological Research Letters and has more than sixty publications in international journals and three edited books to his credit. Dr. Sanjeeb Mohapatra, after fishing his Ph.D. at the Environmental Science and Engineering Department, IIT Bombay, India, joined the Energy and Environmental Sustainability for Megacities (E2S2) program at National University of Singapore (NUS), Singapore, to pursue his postdoctoral degree. His research interest broadly covers the monitoring of emerging contaminants (ECs), photo-degradation and enzymatic degradation of ECs, and the role of dissolved organic matter in deciding the fate of such contaminants. He is a recipient of the Water Advanced Research Innovation (WARI) Fellowship awarded by the Department of Science and Technology (DST), India, University of Nebraska Lincoln, USA, Daugherty Water for Food Global Institute (DWFI), USA and Indo-U.S. Science and Technology Forum (IUSSTF). He is a recipient of the Newton-Bhabha Fellowship jointly awarded by DST, India, and the British Council, U.K. and the DST-INSPIRE fellowship awarded by DST, India. Dr. Mohapatra also won several international and local awards and has many publications in reputed journals, book chapters, and refereed conferences to his credit. Dr. Kishor Acharya is a postdoctoral researcher at the School of Engineering, Newcastle University, UK, specialized in the field of public health engineering. His research interest varies from developing and applying portable molecular tools for on-site microbial hazard assessment to design novel techniques/methods for bio-remediation for removal of organic pollutants. Dr. Acharya is a recipient of the prestigious Rapid Response Grant award by the Global Challenges Academy to help the global dissemination of research skills and tools and capacity building among researchers of Nepal working in the WASH sector. Dr Acharya was recently endorsed as exceptional talent by the Royal Society. He has published his research work in leading environmental engineering journals such as Water Research and Environmental Science and Technology.
Texte du rabat
With an increased demand for wastewater reuse, groundwater recharge with treated wastewater has been practised across the globe. As a result, groundwater quality deteriorates by emerging micropollutants from various anthropogenic origins, including untreated wastewater, seepage of landfill leachate, and runoff from agricultural lands. The fate of such emerging and geogenic contaminants in subsurface systems, especially in the groundwater, depends on several factors. Physicochemical properties of contaminants such as octanol-water partition coefficient, dissociation constant, water-solubility, susceptibility to biodegradation under anaerobic conditions, and environmental persistence under diverse geological and pH conditions play an acritical role during subsurface mass flow. Thus, advanced wastewater treatment techniques, followed by implementing stricter guidelines, are some of the measures that can safeguard water resources.
This book, in general, gives an understanding of the fate and mitigation strategies for emerging and geogenic contaminants in the groundwater. The first and second sections provide a detailed insight into various removal techniques and mitigation approaches. Possible treatment strategies, including bioremediation and natural attenuation, are also covered in those sections. Environmental assessment, groundwater vulnerability, health effects and regulations pertaining to various contaminants are systematically presented in the third section.
Contenu
Section 1: Mitigation Strategies for Emerging Contaminants 1 Occurrence, fate and plasma treatment of emerging contaminants in groundwater 2 Subsurface flow constructed wetlands as a post-treatment unit for emerging contaminants in municipal wastewater 3 Occurrence and fate of CECs transformation products 4 Advanced treatment technologies for removal of contaminants of emerging concern 5 Advanced oxidation process for removal of emerging contaminants in water and sustainable approaches Section 2: Removal of Geo- and Anthropo-genic contaminants 6 Solid waste and landfill leachate: a transient source of emerging microbes and legacy contaminants for groundwater pollution 7 Synthesis of hydroxyapatite nanoparticles by modified co-precipitation technique and investigation of the ceramic characteristics upon thermal treatment for their potential applications for water treatment 8 Nanostructured adsorbents for uranium removal from drinking water 9 Fluoride contamination and abatement measures: A geoenvironmental perspective 10 Physicochemical and biological methods for treatment of municipal solid waste incineration ash to reduce its potential adverse impacts on groundwater 11 Concern for Heavy Metal-ion Water Pollution: Their Strategic Detection and Removal Opportunities Section 3: Environmental Assessment Pathways, and Socio-Ecosystem Framework 12 Environmental fate assessments to understand surface water pollution from metaldehyde-based molluscicide 13 Elucidation of vulnerability of groundwater quality to agriculture and surface runoff: a comprehensive review under the backdrop of future scenario of climate change 14 Root causes of ground water contamination for analyzing resource management & policy framework 15 Pesticides and fertilizers contamination of groundwater: health effects, treatment approaches, and legal aspects 16 Nanomaterials and devices for the provision of safe drinking water in rural communities 17 Deep Learning and Computer Vision Approach in Revealing Biosynthesized Metallic Nanoparticle Size for Optimization Studies and Environmental Remediation of Emerging Pollutants