This book highlights current efforts and research (in Malaysia) on Microbial Fuel Cell (MFC) approach as a core technique for sludge treatment and energy recovery. It also includes health and socioeconomic perspectives used in this approach. The book begins with an overview of sludge in waste treatment plants and the efficient generation of renewable energy through dewatered sludge bioconversion via MFC. It presents the use of Electrogenic Bacteria (EB) for accelerating the hydrolysis treatment of sludge and the determination of metabolites produced in the process. The book highlights new…mehr
This book highlights current efforts and research (in Malaysia) on Microbial Fuel Cell (MFC) approach as a core technique for sludge treatment and energy recovery. It also includes health and socioeconomic perspectives used in this approach. The book begins with an overview of sludge in waste treatment plants and the efficient generation of renewable energy through dewatered sludge bioconversion via MFC. It presents the use of Electrogenic Bacteria (EB) for accelerating the hydrolysis treatment of sludge and the determination of metabolites produced in the process. The book highlights new achievements in the purification of sludge through rubber band technology and further treatment. It discusses the recovery of beneficial biodegradable polymer compounds that are added value for the plastic industry and presents safety issues of sludge on human health. Further, it presents a case study on the MFC project for STEM (Science, Technology, Engineering, and Mathematics) education, and includes the economic perspective of innovation in energy. The book ends with various ways forward toward improving renewable energy production and clean waste treatment.
Dr. Muaz Mohd Zaini Makhtar is a Senior Lecturer in Bioprocess Technology at the School of Industrial Technology, Universiti Sains Malaysia (USM). He is also a Deputy Director of Center for Innovation and Consultation (CIC) USM and Head of Sustainable Development Goals #15: Life on Land under Centre for Global Sustainability Studies (CGSS) in USM. He obtained his M.Sc. and Ph.D. from the Universiti Sains Malaysia under School of Chemical Engineering. While his Bachelor's degree from Universiti Malaysia Perlis (UniMAP). His research interests are in bioprocess technology and bioconversion of waste, focusing on biological treatment technologies; microbial fuel cell (MFC) for waste treatment, and recovery of energy. Dr. Hafiza Shukor is a Senior Lecturer specializing in the areas of fermentation technology (biofuel and biomass treatment) at the Faculty of Chemical Engineering Technology, Universiti Malaysia Perlis (UniMAP). She received her Ph.D. from Facultyof Engineering and Built Environment, Universiti Kebangsaan Malaysia (UKM) under the field of Chemical and Process Engineering, and she obtained her Bachelor Degree and M,Sc. in Chemical Engineering from School of Chemical Engineering, Universiti Sains Malaysia (USM). Her research interests are in the areas of biomass treatment technology, bioconversion of biomass to biofuels (biobutanol, bioethanol, and biohydrogen), and wastewater treatment using biomaterials as biosorbent (biological treatment). Dr. Abu Zahrim Yaser is an Associate Professor in Waste Processing Technology at the Faculty of Engineering, Universiti Malaysia Sabah. He obtained his Ph.D. from Swansea University. Dr. Zahrim has published 12 books and over 100 other refereed technical papers. His inventions on composting system have been adopted by Tongod, Nabawan and Kundasang communities in Sabah. Dr. Zahrim was a Visiting Scientist at the University of Hull.
Inhaltsangabe
Chapter 1: Overview of Biosolid in Waste Treatment Plant.- Chapter 2: An Insight of Component and Typical Mechanism of Sludge Degrader Microbes in Dewatered Sludge.- Chapter 3: Microbial fuel cell as Advance technology for sludge treatment.- Chapter 4: Assessment of MFC-based sludge performance via Electrochemical Impedance Spectroscopy (EIS).- Chapter 5: Utilization of Electrogenic bacteria (EB) consortium for sludge treatment via organic compound degradation.- Chapter 6: Sludge Particle Surface Interactions: Technology and Purification Approaches.- Chapter 7: Potential biodegradable product from dewatered sludge.- Chapter 8: Antimicrobial-Resistant Microorganisms and the Possibility of Using Microbial Fuel Cell Technology to Reduce their Transmission in the Environment.- Chapter 9: Effects of treated and untreated sludge applications on human health, the environment and other ecological factors.- Chapter 10: Designing an MFC-ForEnVyEnt for school pupils' awareness, knowledge, affect and participation.- Chapter 11: MFC Innovation in wastewater treatment plant: Economic perspectives.- Chapter 12: Microbial Fuel Cells (MFC) As an Alternative Energy Source: The Perceptions and Attitudes Towards Sustainable and Renewable Energy in Malaysia.- Chapter 13: The way forward.
Chapter 1: Overview of Biosolid in Waste Treatment Plant.- Chapter 2: An Insight of Component and Typical Mechanism of Sludge Degrader Microbes in Dewatered Sludge.- Chapter 3: Microbial fuel cell as Advance technology for sludge treatment.- Chapter 4: Assessment of MFC-based sludge performance via Electrochemical Impedance Spectroscopy (EIS).- Chapter 5: Utilization of Electrogenic bacteria (EB) consortium for sludge treatment via organic compound degradation.- Chapter 6: Sludge Particle Surface Interactions: Technology and Purification Approaches.- Chapter 7: Potential biodegradable product from dewatered sludge.- Chapter 8: Antimicrobial-Resistant Microorganisms and the Possibility of Using Microbial Fuel Cell Technology to Reduce their Transmission in the Environment.- Chapter 9: Effects of treated and untreated sludge applications on human health, the environment and other ecological factors.- Chapter 10: Designing an MFC-ForEnVyEnt for school pupils’ awareness, knowledge, affect and participation.- Chapter 11: MFC Innovation in wastewater treatment plant: Economic perspectives.- Chapter 12: Microbial Fuel Cells (MFC) As an Alternative Energy Source: The Perceptions and Attitudes Towards Sustainable and Renewable Energy in Malaysia.- Chapter 13: The way forward.
Chapter 1: Overview of Biosolid in Waste Treatment Plant.- Chapter 2: An Insight of Component and Typical Mechanism of Sludge Degrader Microbes in Dewatered Sludge.- Chapter 3: Microbial fuel cell as Advance technology for sludge treatment.- Chapter 4: Assessment of MFC-based sludge performance via Electrochemical Impedance Spectroscopy (EIS).- Chapter 5: Utilization of Electrogenic bacteria (EB) consortium for sludge treatment via organic compound degradation.- Chapter 6: Sludge Particle Surface Interactions: Technology and Purification Approaches.- Chapter 7: Potential biodegradable product from dewatered sludge.- Chapter 8: Antimicrobial-Resistant Microorganisms and the Possibility of Using Microbial Fuel Cell Technology to Reduce their Transmission in the Environment.- Chapter 9: Effects of treated and untreated sludge applications on human health, the environment and other ecological factors.- Chapter 10: Designing an MFC-ForEnVyEnt for school pupils' awareness, knowledge, affect and participation.- Chapter 11: MFC Innovation in wastewater treatment plant: Economic perspectives.- Chapter 12: Microbial Fuel Cells (MFC) As an Alternative Energy Source: The Perceptions and Attitudes Towards Sustainable and Renewable Energy in Malaysia.- Chapter 13: The way forward.
Chapter 1: Overview of Biosolid in Waste Treatment Plant.- Chapter 2: An Insight of Component and Typical Mechanism of Sludge Degrader Microbes in Dewatered Sludge.- Chapter 3: Microbial fuel cell as Advance technology for sludge treatment.- Chapter 4: Assessment of MFC-based sludge performance via Electrochemical Impedance Spectroscopy (EIS).- Chapter 5: Utilization of Electrogenic bacteria (EB) consortium for sludge treatment via organic compound degradation.- Chapter 6: Sludge Particle Surface Interactions: Technology and Purification Approaches.- Chapter 7: Potential biodegradable product from dewatered sludge.- Chapter 8: Antimicrobial-Resistant Microorganisms and the Possibility of Using Microbial Fuel Cell Technology to Reduce their Transmission in the Environment.- Chapter 9: Effects of treated and untreated sludge applications on human health, the environment and other ecological factors.- Chapter 10: Designing an MFC-ForEnVyEnt for school pupils’ awareness, knowledge, affect and participation.- Chapter 11: MFC Innovation in wastewater treatment plant: Economic perspectives.- Chapter 12: Microbial Fuel Cells (MFC) As an Alternative Energy Source: The Perceptions and Attitudes Towards Sustainable and Renewable Energy in Malaysia.- Chapter 13: The way forward.
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