
Integrated Microbial Fuel Cells for Wastewater Treatment
- 1st Edition - April 13, 2020
- Authors: Rouzbeh Abbassi, Asheesh Kumar Yadav, Faisal Irshad Khan, Vikram Garaniya
- Language: English
- Paperback ISBN:9 7 8 - 0 - 1 2 - 8 1 7 4 9 3 - 7
- eBook ISBN:9 7 8 - 0 - 1 2 - 8 1 7 4 9 4 - 4
Current wastewater treatment technologies are not sustainable simply due to their high operational costs and process inefficiency. Integrated Microbial Fuel Cells for Waste… Read more

Current wastewater treatment technologies are not sustainable simply due to their high operational costs and process inefficiency. Integrated Microbial Fuel Cells for Wastewater Treatment is intended for professionals who are searching for an innovative method to improve the efficiencies of wastewater treatment processes by exploiting the potential of Microbial Fuel Cells (MFCs) technology.
The book is broadly divided into four sections. It begins with an overview of the "state of the art" bioelectrochemical systems (BESs) as well as the fundamentals of MFC technology and its potential to enhance wastewater treatment efficiencies and reduce electricity generation cost. In section two, discusses the integration, installation, and optimization of MFC into conventional wastewater treatment processes such as activated sludge process, lagoons, constructed wetlands, and membrane bioreactors. Section three outlines integrations of MFCs into other wastewater processes. The final section provides explorative studies of MFC integrated systems for large scale wastewater treatment and the challenges which are inherent in the upscaling process.
- Clearly describes the latest techniques for integrating MFC into traditional wastewater treatment processes such as activated sludge process, lagoons, constructed wetlands, and membrane bioreactors
- Discusses the fundamentals of bioelectrochemical systems for degrading the contaminants from the municipal and industrial wastewater
- Covers methods for the optimization of integrated systems
1. Introduction2. Application to Industrial Wastewater treatment3. Microbial electrochemical treatment of heavy metals4. Textile Wastewater Treatment using Microbial Fuel Cell and coupled systems: A Green Approach for Detoxification and Bioelectricity generation5. Agro-industrial wastewater with MFCs6. Pharmaceutical wastewater treatment in microbial fuel cells7. Bioelectrochemical system for treating oilfield and petrochemical wastewater for sustainable energy generation8. Bioelectrochemical systems for Stormwater Treatment and Energy Valorisation Processes9. Treatment of food processing and beverage industry wastewaters in MFCIntegration of MFC with other wastewater treatment processes 10. Microbial fuel cell integrated algal bioreactor for sustainable wastewater treatment11. Integration of bio-electrochemical systems with other existing wastewater treatment processes12. An overview on membrane bioreactor coupled bioelectrochemical systems13. The effects of MFC integration on constructed wetlands14. Microbial fuel cells coupled with anaerobic treatment process for wastewater treatment15. Integration of MECs with AD to treat beer industry wastewater16. Large-Scale MFC: Potentials and Challenge
- Edition: 1
- Published: April 13, 2020
- Language: English
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Rouzbeh Abbassi
Dr. Rouzbeh Abbassi is a Professor of Environmental Engineering in the School of Engineering at Macquarie University, Australia and serves within the Centre for Energy and Natural Resources Innovation and Transformation. With over 230 peer‑reviewed publications and multiple books authored and edited, Dr. Abbassi is recognized for his work in risk assessment, safety engineering, corrosion and failure analysis, Bayesian network modeling, and smart energy systems, including hydrogen, offshore wind, and wastewater-based energy recovery. He leads major national and international projects (e.g., BE‑CRC for hydrogen safety), holds editorial roles in top safety and environmental engineering journals, and frequently advises industry partners on offshore infrastructure resilience.
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Asheesh Kumar Yadav
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Faisal Irshad Khan
Dr. Faisal Khan is a Mike O’Connor Chair II and the Head of Texas A&M University’s Artie McFerrin Department of Chemical Engineering. He is also the Director of the Mary Kay O’Connor Process Safety Center and the Ocean Energy Safety Institute. He was a Tier I Canada Research Chair in Offshore Safety and Risk Engineering. He has over three decades of research experience in process safety, risk modeling, and green energy system resilience. His works have greatly benefited the petrochemical and offshore industries. He has made a significant contribution to hydrogen systems and battery technologies, as well. With over 800 peer-reviewed publications and multiple books authored and edited, Dr. Khan is widely recognized as the global leader in safety and risk engineering. He is Fellow of the Canadian Academy of Engineering; Engineering Institution of Canada; AIChE and CSChE.
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