Current Developments in Biotechnology and Bioengineering Advanced Membrane Separation Processes for Sustainable Water and Wastewater Management – Aerobic Membrane Bioreactor Processes and Technologies
Coordonnateurs : Yong Ng How, Ng Tze Chiang, Ngo Huu Hao, Mannina Giorgio, Pandey Ashok
Current Developments in Biotechnology and Bioengineering: Advanced Membrane Separation Processes for Sustainable Water and Wastewater Management ? Aerobic Membrane Bioreactor Processes and Technologies consolidates up-to-date research developments in AeMBR systems for wastewater treatments in terms of membrane materials and decorations, reactor designs and fouling mechanisms. It includes discussions on developments in AeMBR research on energy efficiency and fouling control strategies, gaps, future research and application perspectives. This book is a potential resource for membrane separation and AeMBR practitioners, engineers, scientists, educators and students, and public to understand the latest developments and future prospects in membrane technology.
2. Conventional process design, operation and microbiology of aerobic membrane bioreactors
3. Current challenges in aerobic membrane bioreactors
4. Role of soluble microbial products and extracellular polymeric substances in membrane fouling
5. Techniques for understand membrane fouling mechanisms
6. Advanced membrane materials and designs
7. Advanced MBR and hybrid MBR reactor configurations
8. Hybrid membrane separation processes for drinking water treatment
9. Aerobic membrane bioreactors for municipal wastewater treatment
10. Aerobic membrane bioreactors for industrial wastewater treatment
11. Osmotic membrane technologies
12. Advanced fouling control strategies
13. Quorum sensing and quorum quenching in membrane bioreactors
Postgraduate and doctoral students and educators, professional course students, researchers and wastewater treatment professionals, policy makers, regulators, water management practitioners
Dr. Tze Chiang Albert Ng is a Senior Research Fellow in the Department of Civil and Environmental Engineering at the National University of Singapore (NUS). His research focuses on biological treatment processes including membrane bioreactors, anaerobic processes, and energy and resource recovery. He has contributed to publications related to membrane development, membrane fouling, microbial fuel cells and biotechnology in international peer-reviewed journals. He developed a comprehensive research and development program to generate students’ interest in Science, Technology, Engineering and Mathematics (STEM) and has been a judge for various STEM related science fairs in Singapore.
Prof. Ngo is currently a Professor of Environmental Engineering and serving as Deputy Director of Centre for Technology in Water and Wastewater, Co-Director of Joint Research Centre for Protective Infrastructure Technology and Environmental Green Bioprocess, School of Civil and Environmental Engineering, Faculty of Engineering and Information Technology, University of Technology Sydney. He has been du
- Provides the latest comprehensive review in various important aspects of AeMBR
- Consolidates scattered AeMBR information into a single easily assessible resource
- Provides state-of-the-art technology development of membrane separation, AeMBR reactor designs, membrane development, advantages and challenges in operational implementation and their appropriate control strategies
- Presents a comprehensive review on Quorum Quenching (QQ) fouling control strategy, QQ benefits and drawbacks
- Provides an excellent resource on the latest techniques in characterizing and understanding fouling mechanisms
Date de parution : 01-2020
Ouvrage de 320 p.
19x23.3 cm
Thème de Current Developments in Biotechnology and Bioengineering :
Mots-clés :
Advanced wastewater treatment; Aerobic; Aerobic membrane bioreactor (MBR); Aerobic treatment; Air scouring; Air sparging; Alternative MBR concepts; Anaerobic MBR; Biodegradation; Biofouling; Bubbles; Configuration; Costs; EPSs; Extracellular polymeric substances; Extracellular polymeric substances (EPS); Forward osmosis; Forward osmosis MBR (FO-MBR); Foulants composition; Fouling; Fouling mechanisms; Fouling mitigation; General indices; Hybrid MBR; Hybrid systems; Hydraulic fouling control; Hydrodynamic conditions; Industrial wastewater; Life-cycle assessment; MBR; MBR development; MBR market; Mechanism; Media; Membrane bioreactor; Membrane bioreactor (MBR); Membrane bioreactors; Membrane cleaning; Membrane distillation MBR (MD-MBR); Membrane fouling; Membrane fouling control; Membrane fouling mechanisms; Membrane material; Microbial community; Microbiology; Micropollutants; Micropollutants removal; Morphological visualization; Municipal wastewater; Nanofiltration MBR (NF-MBR); Nitrogen; Nutrients removal; Osmotic MBR; Osmotic membrane bioreactor; Phosphorus; Quorum quenching; Quorum sensing; Salinity accumulation; Secondary flows; Shear forces; SMPs; Soluble microbial products; Specific aeration demand; Wastewater reuse; Wastewater treatment; Water use