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Industrial wastewater contains a large variety of compounds, such as hazardous organic pollutants, heavy metals, salts and nutrients, which makes its treatment challenging. On the other hand, the sewage treatment with existing technologies is not cost-effective due to high energy demand and contributes to greenhouse gas emission. Thus, the use of conventional water treatment methods is neither sustainable nor always effective. In this sense, BESs has emerged as a promising technology to treat complex industrial wastewater with a sustainable manner. Development in Wastewater Treatment Research and Processes: Bioelectrochemical Systems for Wastewater Management analyses and discusses the potential of microbial and electrochemical based hybrid processes for the treatment of complex industrial wastewater along with the recovery of valuable compounds and water reutilization. The most significant advantages of BES are high effectiveness, low toxicity, gentle operation conditions, environmentally friendly treatment without sludge accumulation and energy conservation. Bioelectrochemical systems (BES) are emerging as an exciting platform to convert chemical energy of organic wastes into electricity or hydrogen or value-added chemical commodities. In addition, recent and future trends in BES are highlighted.
Sommario
1. Microalgal mediated bioelectricity generation and concomitant value-added products recovery from wastewater treatment in the bioelectrochemical system: Current status 2. Algal Microbial Fuel Cell: An innovative and accessible approach 3. Key Role of Microorganisms in Industrial Wastewater Treatment 4. Membrane Integrated BES for Wastewater Reclamation 5. Reuse of treated wastewater through emerging technologies 6. Bio-electrochemical systems: Understanding Basics and overcoming challenges 7. Emerging trends of Cyanobacteria based Microbial fuel cells as an alternative energy source 8. Bioelectrochemical systems: Basic concepts and Types 9. Anode modification: An approach to improve power generation in microbial fuel cells (MFCs) 10. Influence of Operational Parameters on the Performance of Microbial Fuel Cells 11. Development of bioelectrochemical systems integrated nanocomposite membranes for Wastewater management 12. Industrial wastewater treatment using bioelectrochemical systems and potential for energy recovery 13. The Charge of the Blue-Green Batteries: Cyanobacteria-based Microbial Fuel Cells as a Green Technology of the Future 14. Microbes and Wastewater treatment 15. Challenges in scale-up of microbial electrosynthesis for wastewater treatment
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Dr. Maulin P. Shah is an active researcher and 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.
Susana Rodríguez-Couto (female) got her B.Sc. and M.Sc. in Chemistry (Industrial Chemistry) from the University of Santiago de Compostela in 1992 and her Ph.D. in Chemistry in 1999 from the University of Vigo, obtaining the maximal grade (magna cum laude) and, in addition, she was awarded with the Extraordinary Prize for Doctoral Thesis in Chemistry. She worked as an Associate Professor and an Isidro Parga Pondal Senior Researcher at the University of Vigo (2000-2004), as a Ramón y Cajal Senior Researcher at Rovira i Virgili University (2004-2008) and as an Ikerbasque Research Professor (2009-2019). She has also worked as an Invited Researcher at the Institute from Environmental Biotechnology, Graz University of Technology (Austria) and at the Department of Biological Engineering, University of Minho (Portugal). In 2008, she received the I3 Professor from the Spanish Ministry of Science and Education to the recognition of an outstanding research activity. In March 2021 she is joining LUT School of Engineering Science at Mikkeli, Finland, as a Full Professor in biological water treatment. She has published more than 140 articles in highly reputed international journals (h index 42). She is editor of several journals (3Biotech, Frontiers) and 14 Elsevier books.Dr. Ashok Kumar Nadda is Assistant Professor in the Department of Biotechnology and Bioinformatics, at Jaypee University of Information Technology, India. His research interests are microbial biotechnology, biocatalysis, biopolymers, enzyme immobilization, bioenergy, and CO2 conversion.Dr. Achlesh Daverey is working as an Assistant Professor in School of Environment and Natural Resources at Doon University, Dehradun, Uttarakhand, India. He has completed his M. Tech. in Bioprocess Technology from Institute of Chemical Technology (ICT) Mumbai, India in 2006 and Ph.D. in Biotechnology from Indian Institute of Technology Guwahati (IIT Guwahati), Assam, India in 2011. He worked as a post-doctoral researcher in Institute of Environmental Engineering at National Chiao Tung University, Taiwan before joining Doon University. He is serving as Editorial Board Member of SN Applied Sciences (Springer) and Review Editor for Frontiers in Bioengineering and Biotechnology, Frontiers in Environmental Science and Frontiers in Microbiology journals. His area of research includes biological wastewater treatment, anammox, phytoremediation of contaminated soil and water, waste valorization, and bioprocess design and optimization. Dr. Daverey has published 32 research papers in various internationally reputed journals and contributed 7 chapters in edited books (published by Elsevier, Springer, McGraw-Hill, American Society for Civil Engineers).
