Scaling Up of Microbial Electrochemical Systems
From Reality to Scalability
- 512 pages
- English
- ePUB (mobile friendly)
- Available on iOS & Android
Scaling Up of Microbial Electrochemical Systems
From Reality to Scalability
About This Book
Scaling Up of Microbial Electrochemical Systems: From Reality to Scalability is the first book of its kind to focus on scaling up of microbial electrochemical systems (MES) and the unique challenges faced when moving towards practical applications using this technology. This book emphasizes an understanding of the current limitations of MES technology and suggests a way forward towards onsite applications of MES for practical use. It includes the basics of MES as well as success stories and case studies of MES in the direction of practical applications.
This book will give a new direction to energy researchers, scientists and policymakers working on field applications of microbial electrochemical systemsâmicrobial fuel cells, microbial electrolysis cells, microbial electrosynthesis cells, and more.
- Promotes the advancement of microbial electrochemical systems, from lab scale to field applications
- Illustrates the challenges of scaling up using successive case studies
- Provides the basics of MES technology to help deepen understanding of the subject
- Addresses lifecycle analysis of MES technology to allow comparison with other conventional methods
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Information
Table of contents
- Cover image
- Title page
- Table of Contents
- Copyright
- Contributors
- Chapter 1: Microbial electrochemical systems
- Chapter 2: A review on scaling-up of microbial fuel cell: Challenges and opportunities
- Chapter 3: Electroactive biofilm and electron transfer in microbial electrochemical systems
- Chapter 4: Role of electroactive biofilms in governing the performance of microbial electrochemical system
- Chapter 5: Electroactive biofilm and electron transfer in the microbial electrochemical system
- Chapter 6: Electroactive biofilm and electron transfer in MES
- Chapter 7: Bioelectroremediation of wastes using bioelectrochemical system
- Chapter 8: Fiber-reinforced polymer (FRP) as proton exchange membrane (PEM) in single chambered microbial fuel cells (MFCs)
- Chapter 9: Effects of biofouling on polymer electrolyte membranes in scaling-up of microbial electrochemical systems
- Chapter 10: Advancement in electrode materials and membrane separators for scaling up of MES
- Chapter 11: Scale-up of bioelectrochemical systems: Stacking strategies and the road ahead
- Chapter 12: Application of microbial electrochemical system for industrial wastewater treatment
- Chapter 13: Metabolic engineering and synthetic biology key players for improving efficacy of microbial fuel cell technology
- Chapter 14: Microbial electrochemical platform: A sustainable workhorse for improving wastewater treatment and desalination
- Chapter 15: Scaling-up of microbial electrochemical systems to convert energy from waste into power and biofuel
- Chapter 16: Microbial fuel cell: Commercial aspect in terms of stacking and electrochemical perspective for scaling up
- Chapter 17: Scaling up and applications of microbial fuel cells
- Chapter 18: Electrode modification and its application in microbial electrolysis cell
- Chapter 19: Strategies in the direction of scaling-up aspects of microbial electrolysis cells
- Chapter 20: Multi-stage constructed wetland microbial fuel cells: A new perspective for potential high-strength wastewater treatment under continuous operation
- Chapter 21: Microbial fuel cellsâChallenges for commercialization and how they can be addressed
- Chapter 22: Utilization of human waste and animal urine for energy and resource recovery in microbial electrochemical system
- Chapter 23: Application of artificial intelligence methods for the optimization and control of bioelectrochemical systems
- Chapter 24: Toward sustainable feasibility of microbial electrochemical systems to reality
- Index