Decarbonization of Wastewater Pollutants as a Sustainable Solution: Developments in Wastewater Treatment Research and Processes

Alok Prasad Das · Sunanda Mishra · Maulin P. Shah

Nov 2025 · Elsevier

Ebook

300

Pages

Eligible

This book will become available on November 1, 2025. You will not be charged until it is released.

About this ebook

Decarbonization of Wastewater Pollutants as a Sustainable Solution discusses various eco-friendly wastewater treatment techniques which allow recycling of unwanted pollutants and handling residual wastes in a way that is more palatable to biological systems. The book focuses on current and new wastewater treatment and reuse technologies, and outlines their limits and future opportunities. The book deals with current issues in the creation, handling, and processing of anthropogenic waste into different value-added products, which is of particular interest in situations where trash is simply dumped in open dumping yards, and pose a serious hazard to humans, animals, and the environment. It researches organic waste and fourth-generation biomass for a variety of targeted goods, and provides insights in how to accomplish full decarbonization, where all residual emissions, including the carbon footprint of chemical use and transportation, are balanced. Decarbonization of Wastewater Pollutants as a Sustainable Solution provides a wealth of technologies relevant to wastewater (from municipal and industrial sources) as well as water sources (drinking water), as well as the physical, chemical, and thermal processes used in the covered technologies and procedures, which makes it an indispensable resource for many researchers in this field.• Describes the most recent advanced industrial wastewater treatment technologies • Provides a comparative analysis of available waste water treatment technologies • Highlights and examines developing future technology for removing anthropogenic contaminants from wastewater

About the author

Dr. Alok Prasad Das received his PhDs in Biotechnology from Siksha O Anusandhan University, India, carried out most of his PhD work at CSIR-IMMT and received his M. Tech degree from National Institute of Technology, Rourkela, India. Dr. Das’s research focuses on Development of Bioleaching technologies for metal recovery and waste management. He has been associated with the development of a methodology whereby microbes could improve the biorecovery process of metals. In addition to this, he is also investigating advanced mineral processing technology with special emphasis on microbial resource recycling techniques, which are required for sustainable development and to accomplish present demand. This technology can be applied to other fields such as resource utilization, waste minimization and environmental remediation. His research interests also focus upon microbial biogeochemical cycling of manganese which has resulted in a number of key papers in the area (see S. Ghosh and A.P. Das 2018, Nature Scientific Report; Mohanty et al., 2018, Rev in Env Sc & Biotech, Das et al., 2011, Biores Tech- 85 citations). His current Google Scholar: Citations is 600 and h-index 13. Dr. Alok has more than 10 years of research experience on bioleaching, bioremediation, mineral recovery techniques with expertise on microbial culture isolation and screening studies, strain development and optimization studies for efficient mineral recovery.

Sunanda Mishra is a PhD research scholar. She has 5 years of research experience and published several Books, Journal Articles, and Editorial member of several reputed journals. Currently her major work involves Heavy metal pollution, Environmental Biotechnology, and Environmental Microplastic and Microfiber Pollution and management, Sustainability.

Maulin P. Shah is a Microbial Biotechnologist with diverse research interest. His primary interest is the environment, the quality of our living resources and the ways that bacteria can help to manage and degrade toxic wastes and restore environmental health. Consequently, His work has been focused to assess the impact of industrial pollution on microbial diversity of wastewater following cultivation dependant and cultivation independent analysis.

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