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Full Description
This book tackles the critical issue of arsenic contamination in water resources, a significant global threat impacting both developed and developing nations. Arsenic exposure poses severe health risks, including cancer, necessitating innovative solutions that prioritize both effectiveness and environmental responsibility. This book explores the diverse sources of arsenic contamination, from naturally occurring minerals to industrial pollutants, and the severe health impacts of chronic exposure, including cancer and cardiovascular diseases. It also covers the latest advancements in bioremediation and nanotechnology, featuring cutting-edge sustainable arsenic removal technologies that go beyond traditional methods like coagulation and filtration.
Divided into 14 chapters, the book addresses topics such as bioremediation using microorganisms and natural plant-based systems, integrated bioremediation technologies, and the application of nanotechnology for enhanced efficiency and affordability. It also outlines the development and use of low-cost adsorptive materials and sustainable adsorbents, providing a comprehensive overview of their strengths, limitations, and future prospects. With a focus on both developed and developing countries, the book examines the current state of arsenic removal methods, the challenges faced, and the innovative solutions being developed. It highlights the importance of building capacity and knowledge sharing for sustainable arsenic management.
This book is an essential resource for researchers, environmental scientists, engineers, and policymakers working in the fields of environmental science, water treatment, and public health. It equips readers with a detailed and up-to-date perspective on the technologies and strategies needed to effectively mitigate arsenic pollution.
Contents
Overview on occurrence of arsenic on human health and its removal through microorganisms.- Health impacts of arsenic exposure and regulations for safe drinking water.- Mechanism and technologies for arsenic bioremediation using natural plant-based microorganism.- Utilizing natural processes for sustainable arsenic removal through bioremediation
technology.- Integrated bioremediation technologies for arsenic removal.- Nanotechnology-based solutions: Advancing efficiency and affordability.- Adsorptive materials and its techniques for removal of arsenic from wastewater.- Arsenic mitigation technologies from wastewater using low cost adsorption materials.- Sustainable low-cost adsorbents for arsenic removal: advances, challenges, and future prospects.- Low cost Arsenic removal using different biological routes.- Overview of conventional arsenic removal methods: Strengths and limitations.- Removal of arsenic from water bodies: Current state of art and future perspectives.- Arsenic pollution mitigation through technological developments in developing
countries.- Building capacity and knowledge sharing for sustainable arsenic management.
