Membrane Desalination

From Nanoscale to Real World Applications
 
 
CRC Press
  • erscheint ca. am 30. Juli 2020
 
  • Buch
  • |
  • Hardcover
  • |
  • 408 Seiten
978-0-367-03079-7 (ISBN)
 
This book aims to provide details about membrane desalination processes, starting from basic concepts leading to real world implementation. Chapters cover novel research topics such as biomimetic and nanocomposite membranes, nanostructured fillers for mixed matrix membranes, advanced characterization techniques and molecular modeling. Additionally, engineering and economical aspects of desalination as well as the exploitation of green energy sources are thoroughly presented. This books targets bridging the gap between the everyday research laboratory practices with practical application demands, so that the readers gain a global perspective of all desalination challenges.
  • Englisch
  • London
  • |
  • Großbritannien
Taylor & Francis Ltd
  • Für höhere Schule und Studium
21 Tables, black and white; 182 Illustrations, black and white
  • Höhe: 235 mm
  • |
  • Breite: 156 mm
978-0-367-03079-7 (9780367030797)

Andreas Sapalidis was born in Florina, Greece (1979) and studied Petroleum Engineering in the Technological Institute of Kavala, Greece (2002). In 2004 obtained a Master in Science from Department of Chemistry (Industrial Chemistry/Polymer Science) from the National and Kapodestrian University of Athens and on 2009 a PhD from the same Department with Thesis entitled "Preparation and characterization of polymeric nanocomposites materials". He is a member of Membranes and Microporous Materials for Environmental Separations Laboratory (MESL) since 2001, with research interests the novel preparation and characterization techniques of nanostructured materials. He has extensive experience on the following characterization techniques: Atomic force microscopy, SEM, TEM, permeability methods, scattering methods (X-ray & neutrons), mechanical properties, Thermogravimetric analysis, Differential Scanning Calorimetry, Nitrogen and Mercury porosimetry and Absorption methods. He is an author of 27 research papers (>600 citations, h-index 12, i10 index 15) and 1 book chapter. He participated in 15 European and national projects while he scientifically supervised one national and currently coordinates a European project in the area of seawater desalination.
Chapter 1: Introduction to membrane desalination


Andreas A. Sapalidis,Evangelos P. Kouvelos, George E. Romanos, Nick K. Kanellopoulos





Chapter 2: Membrane Materials Design Trends: Nano Additives


Shadia R. Tewfik , Mohamed H. Sorour , Abdelghani M.G. Abulnour , Hayam F. Shaalan , Heba A. Hani , Marwa M.H. El-Sayed , Yomna O. Abdelrahman, Eman S. Sayed, Aya N. Mohamed, Amany A. Al-Mansoup ,Nourhan A. Shawky





Chapter 3: Functionalization routes for the successful incorporation of carbon-based nano-additives into polymeric membranes


Myrsini Kyriaki Antoniou, Andreas A. Sapalidis, Zili Sideratou





Chapter 4: Nanohybrid graphene-based materials for advanced wastewater treatment: Adsorption and membrane technology


George Z. Kyzas, Evangelos P. Favvas, Athanasios C. Mitropoulos





Chapter 5. State of the art and perspectives in membranes for membrane distillation/membrane crystallization


Carmen Meringolo ,Gianluca Di Profio, Efrem Curcio, Elena Tocci, Enrico Drioli, Enrica Fontananova





Chapter 6. Artificial Water Channels - toward next-generation Reverse Osmosis Membranes


Maria Di Vincenzo, Sophie Cerneaux, Istvan Kocsis, Mihail Barboiu





Chapter 7: Introduction to membrane desalination


Rund Abu-Zurayk, Mohammed R. Qtaishat, Abeer Al Bawab





Chapter 8. Molecular Modelling of Carbon-based Membranes for Desalination


Georgia Karataraki,Anastasios Gotzias,Elena Tocci





Chapter 9: Virtual Material Design: a powerful tool for the development of high efficiency porous media


Stephan Barbe and Aron Kneer





Chapter 10: Estimation of process parameters in industrial membrane manufacture using Computational Fluid Dynamics


Stephan Barbe, Fei Wang, Aron Kneer, Michael Metze, Christian Wenning, Patrick Altschuh, Britta Nestler





Chapter 11: Energy Efficiency of Reverse Osmosis Desalination


Mohamed T. Mito and Philip A. Davies





Chapter 12: Membrane fouling and scaling in reverse osmosis


Nirajan Dhakal, Almotasembellah Abushaban, Nasir Mangal, Mohanad Abunada, Jan C. Schippers


Maria D Kennedy





Chapter 13: Sustainable Development & Future Trends in Desalination Technology


Mattheus Goosen and Hacene Mahmoudi





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