Current Trends and Future Developments on (Bio-) Membranes Membrane Desalination Systems: The Next Generation
Coordonnateurs : Basile Angelo, Curcio Efrem, Inamuddin
Current Trends and Future Developments on (Bio-) Membranes: Membrane Desalination Systems: The Next Generation explores recent developments and future perspectives in the area of membrane desalination systems. It includes fundamental principles, the different types of smart nano-structured materials, energy and brine disposal issues, design approaches and the environmental impact of membrane desalination technology. The book provides an extensive review of literature in the area of membranes for desalination systems of low energy consumption and discusses the membrane modelling necessary for desalination system validation in achieving high water recovery, low energy and near-zero liquid discharge.
1. Graphene and CNT Technology 2. Carbon-based membranes for Desalination 3. The Impact of Termoplasmonics in Membrane Technology 4. Electrospun Nanofibrous Membranes for Desalination 5. Full-Scale membrane Distillation Systems and Performance Improvment Through Modeling: A Review 6. Membrane Wetting in Membrane Distilation 7. Membrane Crystallization 8. A Review: Desalinating by Forward Osmosis 9. Wind Aided Intensified Evaporation (WAIV): An Environmentally Sustainable Method for Brine Managemen 10. Membrane Desalination in Shale Gas Industry: Applications and Perspectives 11. Fundamentals of Pressure Retarded Osmosis 12. Mathematical Modeling for Electromembrane Processes 13. Salinity Gradient Power Reverse Electrodialysis 14. Integrating Pressure Retarded Osmosis and Membrane Distillation 15. Forward Osmosis, Reverse Electrodialysis and Membrane Distillation: New Integration Options in Pretreatment and Posttreatment Mmebrane Desalination Process 16. The Next Generation Energy Efficient Membrane Desalination Systen wutg Advanced Key Technologies: Mega-Ton Water System 17. The REAPower Project: Power Production from Saline Waters and Concentrated Brines 18. Membrane Operations for Minerals Recovery from Seawater
graduates and post graduates, researchers in the area of desalination, water treatment and membrane processes in chemical, mechanical and environmental engineering, materials chemistry and process engineering, R&D Companies and Institutions specializing in membrane based separation process.
Angelo Basile, a Chemical Engineer with Ph.D. in Technical Physics, is author of hundreds of papers, books, chapter-books, and Special Issues in the field of Membrane Science and Technology, with also various Italian, European and worldwide patents. He is an Associate Editor of various int. journals (IJHE, APCEJ, etc), Editor-in-Chief of the Int. J. Membrane Sci. & Techn., and member of the Editorial Board of more 25 int. journals. Today Basile is working at General TAG, Via Mastri Ligornettesi n. 28, Ligornetto 6853 – Switzerland.
M.Sc. and PhD in Chemical Engineering at the University of Calabria. Associate Professor at the Department of Environmental and Chemical Engineering – University of Calabria since 2014. Research Associate at the Institute on Membrane Technology (ITM-CNR). Co-author of >70 papers on peer-reviewed international journals (h-Index: 25, Citations>1800 by Scopus), 2 books (1 edited by Elsevier in English/Chinese, 1 by Imperial College Press), about 150 publications on congress proceedings prevalently international, 1 patent. Fifteen years of experience in design and development of advanced membrane contactors including Membrane Distillation and Membrane Crystallization, pressure-driven membrane operations (Reverse Osmosis, Forward Osmosis, Micro-Ultra-Nano filtration), Integrated Membrane Systems and Process Intensification for applications to water treatment, seawater desalination, energy production (Reverse Electrodialysis). European Membrane Society AWARD 2004 for the best published paper in Membrane Science and Engineering.
Inamuddin is an assistant professor at the Department of Applied Chemistry, Zakir Husain College of Engineering and Technology, Faculty of Engineering and Technology, Aligarh Muslim University, Aligarh, India. He has extensive research experience in multidisciplinary fields of analytical chemistry, materials chemistry, electrochemistry, renewable energy, and environmental science. He has worked on di
- Outlines the use of the potential of salinity gradient power from brines for a low-energy desalination concept
- Focuses on the development of integrated membrane systems to achieve the goal of near-zero-liquid-discharge
- Summarizes the latest advancement in the nanosciences for creating membranes with advanced properties and functions
Date de parution : 11-2018
Ouvrage de 534 p.
19x23.3 cm
Thème de Current Trends and Future Developments on (Bio-) Membranes :
Mots-clés :
Bipolar membrane etc; Brackish water; Brine; Brines; Carbon nanotubes; Commercial systems; Computational fluid dynamics; Concentration; Desalination; Desalination brine; Desalination brines; Desalination process; Dewetting; Donnan potential; Electrodialysis; Electromembrane processes; Energy recovery device (ERD); FO; Forward osmosis; Freshwater; Full-scale systems; Graphene; Graphene oxide; High-salinity applications; Hybrid process; Improvement; Ion exchange membranes; LEP; Low-pressure SWRO membrane; Low-pressure multistage SWRO system (LMS); Macrohomogeneous; Mathematical modeling; Megaton water system; Membrane desalination systems; Membrane distillation; Membrane operations; Membranes; Mineral brines; Modeling; Nanofiltration; Nanofluidic properties; Nanoparticles; Nanoporous graphene; Natural organic matter; Nernst-Planck equation; Performance; Photothermal treatment; Physicochemistry; Pilot plant; Plasmon; Poisson equation; Porosity; Potable water; Power generation; Pressure; Pressure retarded osmosis; Pressure retarded osmosis (PRO); Reaction equilibrium; Reaction invariants; Reaction kinetics; Reverse electrodialysis; Reverse osmosis; Roughness; SGP-RE batteries; SWRO; Salinity gradient; Salinity gradient power; Seawater; Seawater desalination; Shale gas wastewater; Simulation software; Surface; Thermoplasmonics; Thin-film composite; Thin-film composite membrane; Thin-film nanocomposite; WAIV; Water reuse and water recycling; Water splitting; Water treatment; Wetting behavior; Zero-liquid discharge (ZLD)
