Advances in Environmental Electrochemistry
Jadhav, Dipak Ashok
Behera, Manaswini
Sevda, Surajbhan
Shah, Maulin P.
Advances in Environmental Electrochemistry provides a solid foundation in the basics of environmental electrochemistry, including redox reactions for contaminant removal, bio-electrochemical systems, electrochemical reactor design and the various electrochemistry-based techniques for practical wastewater degradation, environmental remediation and bioenergy recovery from waste. Technologies acting as key indicators for addressing the various aspects of environmental electrochemistry are covered as well as comparisons to conventional methods and potential ways forward to their application in bioremediation technology. This book will be of interest to chemical engineers, environmental engineers, and all those interested in environmental biotechnology, bio-electrochemical systems, electrochemical sensors, advanced oxidation processes, biological wastewater treatment, and waste to energy recovery. Covers advances in bio-electrochemical systems for wastewater treatment and resource recovery Explains the role of electrochemistry and electrochemical techniques in environmental bioremediation Includes life cycle analysis and technoeconomic assessment of electrochemical-based reactors for environmental monitoring INDICE: 1. Basics of bioelectrochemistry and fundamental applications2. Overview of electrochemistry applications in environmental field3. Basics and mechanisms of electrochemical reactors with electrochemical reactions4. Design architecture of electrochemical reactors and materials used5. Recent advancements and applications of environmental electrochemistry6. Bioelectrochemical systems for wastewater treatment and resource recovery7. Microbial fuel cells for contaminants removal and electricity generation8. Electrochemical based sensors for environmental quality monitoring9. Photoelectrochemical technologies for industrial effluent treatment10. Microbial carbon capture cells for carbon sequestration and biomass generation11. Microbial electrolysis cells for effective biohydrogen production from biowaste12. Desalination through microbial desalination cells and remediation of organic pollutants13. Electro-coagulation and electro-osmosis for wastewater degradation14. Microbial electrosynthesis for synthesis of fatty acids and industrial chemicals from wastewater15. Electro-Fenton Process for bioremediation16. Electroremediation of contaminated soils and sediments17. Electrochemical reduction of heavy metals from industrial effluents18. Role of Bioelectrochemistry from bioelectrorespiration to bioelectrodegrdation19. Electrochemical advanced oxidation processes for contaminated wastewater treatment20. Advanced Oxidation tools and membrane separation processes21. Integration of conventional wastewater treatment and electrochemical reactors22. Role of electrochemistry and electrochemical technologies for environmental bioremediation23. Application of nanotechnology in electrochemical reactors for environmental use24. Scaling-up of electrochemical reactors for practical use25. Life cycle assessment and techno-economic evaluation of electrochemical reactors from environmental perspective26. Miscellaneous Environmentally Orientated Electrochemical Processes and their applications27. Future of Environmental ElectrochemistryContributorsK Sonu, M Sogani, Z Syed, Manipal University Jaipur, IndiaAlessandro A. Carmona-Martínez, Chemical Engineering and Environmental Technology, University of Valladolid, SpainA.S. Mathuriya, Soumya Pandit, Department of Life Sciences, Sharda University, Greater Noida, NCR, IndiaSovik Das, Makarand M. Ghangrekar, Department of Civil Engineering, Indian Institute of Technology Kharagpur, West Bengal, IndiaS. Venkata Mohan, Bioengineering and Environmental Sciences, CSIR-Indian Institute of Chemical Technology, Hyderabad-500 007, IndiaMukherjee, V. Patel, N.S. Munshi, Institute of Science, Nirma University, Gujarat, India.Siddharth Gadkari, J. Sadhukhan, Department of Chemical and Process Engineering, University of Surrey, UKBhasker Bethi and group, Department of Chemical Engineering, BVRIT Narsapur, IndiaKhandelwal, P.N.L. Lens, National University of Ireland, Galway, University Road, Galway, H91 TK33, IrelandSung-gwan Park, D.A. Jadhav and K.J. Chae, Korea Maritime and Ocean University, Busan, South KoreaSoumya Pandit, A.S. Mathuriya, Department of Life Sciences, Sharda University, Greater Noida, NCR, IndiaAryama Raychaudhuri, Rishi Gurjar, Somdipta Bagchi, Manaswini Behera, School of Infrastructure, Indian Institute of Technology Bhubaneswar, IndiaM. Roy, R.K. Yadav, Sunil A. Patil, Environmental Sciences Indian Institute of Science Education and Research Mohali, IndiaPydi Setty Y., Department of Chemical Engineering, National Institute of Technology, Warangal - 506004, Telangana, IndiaSunita Raut-Jadhav, Mandar P. Badve, D. V. Pinjari, Daulat R. Saini, Shirish H. Sonawane, Department of Chemical Engineering, Institute of Chemical Technology, Mumbai, Maharashtra, IndiaArkatkar, A.K. Mungray, A.A. Mungray, Department of Chemical Engineering, SV National Institute of Technology Surat, IndiaJayesh M. Sonawane, Department of Chemistry, Laval University, Quebec, CanadaA.D. Chendake, D.A. Jadhav, Department of Agricultural Engineering, Maharashtra Institute of Technology Aurangabad, Maharashtra, IndiaSurajbhan Sevda, Department of Biotechnology, National Institute of Technology Warangal, IndiaP. Sharma, G.P. Talekar, Srikant Mutnuri, Department of Biological Sciences, Birla Institute of Technology Goa, IndiaIwona Gajda, Ioannis Ieropoulos, Bioenergy and Self-sustainable Systems, University of the West of England Bristol, UK.Y. Liu, X. Zhang, C. Li, School of Energy and Environmental Engineering, University of Science and Technology Beijing, Beijing, 100083 ChinaVijay, P.C. Ghosh, Department of Energy Science and Engineering, Indian Institute of Technology Bombay, IndiaSathish Kumar Kamaraj, InstitutoTecnológico El Llano Aguascalientes (ITEL), TecnológicoNacional de México (TecNM), México.K. Gunaseelan, V. Kiran Kumar, S. Gajalakshmi, Sustainable Fuel Cells Technology Lab, Centre for Pollution Control & Environmenta lEngineering, Pondicherry University, Puducherry-605 014, IndiaG. Dhar Bhowmick and group, Department of Civil Engineering, Indian Institute of Technology Kharagpur, West Bengal, India
- ISBN: 978-0-443-18820-6
- Editorial: Elsevier
- Encuadernacion: Rústica
- Páginas: 400
- Fecha Publicación: 01/06/2023
- Nº Volúmenes: 1
- Idioma: Inglés