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Viser: Emerging Membrane Technology for Sustainable Water Treatment

Emerging Membrane Technology for Sustainable Water Treatment
Søgbar e-bog

Emerging Membrane Technology for Sustainable Water Treatment Vital Source e-bog

Rajindar Singh og Nicholas Hankins
(2016)
Elsevier Science
1.530,00 kr.
Leveres umiddelbart efter køb
Emerging Membrane Technology for Sustainable Water Treatment

Emerging Membrane Technology for Sustainable Water Treatment

Rajindar Singh og Nicholas Hankins
(2016)
Sprog: Engelsk
Elsevier Science & Technology
1.785,00 kr.
Print on demand. Leveringstid vil være ca 2-3 uger.

Detaljer om varen

  • Vital Source searchable e-book (Reflowable pages): 480 sider
  • Udgiver: Elsevier Science (April 2016)
  • Forfattere: Rajindar Singh og Nicholas Hankins
  • ISBN: 9780444633163

Emerging Membrane Technology for Sustainable Water Treatment provides the latest information on the impending crisis posed by water stress and poor sanitation, a timely issue that is one of the greatest human challenges of the 21st century. The book also discusses the use of membrane technology, a serious contender that can be used to confront the crisis on a global scale, along with its specific uses as a solution to this escalating problem.



  • Provides a unique source on membrane technology and its application for water treatment
  • Focuses on technologies designed for the treatment of seawater and brackish water
  • Highlights the most economically and environmentally friendly membrane technologies
  • Lists various technologies and emphasizes their link to renewable energy, energy efficiency, nanotechnology, reuse, and recycle
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Detaljer om varen

  • Hardback: 480 sider
  • Udgiver: Elsevier Science & Technology (Marts 2016)
  • Forfattere: Rajindar Singh og Nicholas Hankins
  • ISBN: 9780444633125

Emerging Membrane Technology for Sustainable Water Treatment provides the latest information on the impending crisis posed by water stress and poor sanitation, a timely issue that is one of the greatest human challenges of the 21st century. The book also discusses the use of membrane technology, a serious contender that can be used to confront the crisis on a global scale, along with its specific uses as a solution to this escalating problem.

  • Provides a unique source on membrane technology and its application for water treatment
  • Focuses on technologies designed for the treatment of seawater and brackish water
  • Highlights the most economically and environmentally friendly membrane technologies
  • Lists various technologies and emphasizes their link to renewable energy, energy efficiency, nanotechnology, reuse, and recycle
Section
1: Membrane Processes for Global Water Solutions
1. Ethical and Sustainable Utilisation of Water: Global Scenarios and Engineering Responsibilities W. Richard Bowen
1.1 Introduction
1.2 Global Perspectives
1.3 Global Plans
1.4 Engineering Responsibilities
1.5 Membrane Engineering References
2. Introduction to Membrane Processes for Water Treatment Rajindar Singh, Nicholas P. Hankins
2.1 Membrane Materials
2.2 Membrane Separation
2.3 Membrane Processes
2.4 Hybrid Membrane Plants
2.5 Membrane Modules
2.6 Membrane Fouling and Control
2.7 Recent Developments and Future Prospects References Section
2: Desalination and Potable Water Puri'cation
3. Forward Osmosis for Sustainable Water Treatment Li-Cheng Shen, Nicholas P. Hankins
3.1 Introduction
3.2 Draw Solutions
3.3 Membranes and Modules
3.4 Applications of FO
3.5 Conclusions Acknowledgements References
4. Desalination by Membrane Distillation Julio A. Sanmartino, Mohamed Khayet, M.C. García-Payo
4.1 Introduction
4.2 Membrane Distillation
4.3 Properties of Saline Aqueous Solutions
4.4 MD Desalination
4.5 Energy Consumption and Costs of MD Desalination
4.6 Conclusions and Future Perspectives in MD References
5. Sustainable Energy Systems for Seawater Reverse Osmosis Desalination Philip A. Davies
5.1 Introduction
5.2 Performance Limits
5.3 Performance and Losses in RO Desalination
5.4 Performance of PV Cells and Losses
5.5 RO Systems for Variable-Power Operation
5.6 Thermally Powered RO Systems
5.7 Conclusions and Outlook List of Abbreviations Glossary References
6. Desalination and On-site Energy for Groundwater Treatment in Developing Countries Using Fuel Cells Rajindar Singh
6.1 Background
6.2 India''s WatereEnergy Nexus
6.3 FC Technology
6.4 FC Integrated Membrane Desalination
6.5 Zero Liquid Discharge Desalination Processes
6.6 Appropriate Desalination Technology for Remote Regions
6.7 Concluding Remarks References
7. Ion Exchange Membranes for Water Softening and High-Recovery Desalination Malynda A. Cappelle, Thomas A. Davis
7.1 Ion Exchange Materials and Water Softening
7.2 Donnan Dialysis
7.3 ED for Desalination
7.4 Conclusions List of Acronyms and Abbreviations Acknowledgements References
8. Water Treatment by Electromembrane Processes Nalan Kabay, Oe zguer Arar, Samuel Bunani
8.1 Introduction
8.2 Electrodialysis (ED)
8.3 Electrodeionisation (EDI)
8.4 Capacitive Deionisation (CDI)
8.5 Conclusions and Recommendations List of Abbreviations Symbols Subscripts and Superscripts Greek Symbols Acknowledgements References Section
3: Wastewater Treatment for Reclamation and Reuse
9. Removal of Emerging Contaminants for Water Reuse by Membrane Technology Long D. Nghiem, Takahiro Fujioka
9.1 Introduction
9.2 Membrane Technology for Water Reclamation
9.3 NF/RO Separation
9.4 Other Membrane Processes
9.5 Conclusion References
10. Surfactant and Polymer-Based Technologies for Water Treatment Li-Cheng Shen, Nicholas P. Hankins, Rajindar Singh
10.1 Introduction
10.2 Surfactant-Based Technologies for Water Treatment
10.3 Polymer-Based Technologies for Water Treatment
10.4 Combined PolymereSurfactant-Based Technologies for Water Treatment
10.5 Characterisation of Micellar Size
10.6 Conclusions Acknowledgement References
11. Submerged and Attached Growth Membrane Bioreactors and Forward Osmosis Membrane Bioreactors for Wastewater Treatment Sher Jamal Khan, Nicholas P. Hankins, Li-Cheng Shen
11.1 Introduction
11.2 Biological and Membrane Filtration Processes in MBR
11.3 Membrane Fouling Classi'cation and Mitigation Approaches
11.4 Development of AMBR
11.5 The Forward Osmosis MBR References
12. Brine Treatment and High Recovery Desalination J. Gilron
12.1 Introduction
12.2 Energy and Pressure Considerations in High Recovery
12.3 Hybrid Processes to Overcome Salinity Limitations
12.4 Hybrid Processes that Overcome Scaling Problems
12.5 Conclusions Nomenclature Greek Symbols Subscripts References Section
4: New Membrane Materials and Applications
13. Development of Hybrid Processes for High Purity Water Production Rajindar Singh
13.1 Introduction
13.2 Process Technologies
13.3 HPW Applications
13.4 UPW Processes for Advanced Microchips
13.5 Water Reclamation for Reuse References
14. Biomimetic Membranes for Water Puri'cation and Wastewater Treatment Chuyang Y. Tang, Zhining Wang, Claus H''elix-Nielsen
14.1 Introduction
14.2 Aquaporins
14.3 Biomimetic Membranes and Their Properties
14.4 Summary and Conclusions References
15. Novel Graphene Membranes e Theory and Application Jakob Buchheim, Roman M. Wyss, Chang-Min Kim, Mengmeng Deng, Hyung Gyu Park
15.1 Introduction
15.2 Porous Graphene Fluidics e Mass Transport across Porous Graphene
15.3 Mass Transport across Layered Graphene and Graphene Oxide
15.4 Conclusions References
16. Nanocomposite and Responsive Membranes for Water Treatment Sebasti''an Hern''andez, Anthony Saad, Lindell Ormsbee, Dibakar Bhattacharyya
16.1 Introduction
16.2 Responsive Materials
16.3 Nanocomposite Membranes
16.4 Summary Acknowledgements References
17. Membrane Fouling, Modelling and Recent Developments for Mitigation Catalina Alvarado, Kathryn Farris, James Kilduff
17.1 Introduction
17.2 Foulants
17.3 Biological Fouling
17.4 Models for Fouling
17.5 Approaches to Mitigate Fouling
17.6 Concluding Remarks References
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