Synthetic Polymeric Membranes for Advanced Water Treatment, Gas Separation, and Energy Sustainability

Coordinators: Ismail Ahmad Fauzi, Wan Salleh Wan Norharyati, Yusof Norhaniza

Language: English
Cover of the book Synthetic Polymeric Membranes for Advanced Water Treatment, Gas Separation, and Energy Sustainability

Subjects for Synthetic Polymeric Membranes for Advanced Water...

Keywords

2D; Acid rain; Acidic gas; Aging; Air separation; Anaerobic membrane bioreactor; Anion exchange membrane; Battery separators; Capacitive deionization; Carbon dioxide; Cellulose acetate; Characterization; Clay; Composite; Denitrification; Desalination; Dichalcogenide; Diffusivity; Direct methanol fuel cell; DMFC single test; Dye rejection; Electrodialysis; Fabrication; Forward osmosis; Fouling; Fuel cell; Gas separation; Gas transport mechanism; Graphene; Grotthuss; Heavy metal; Hybrid membrane system; Hybrid process; Hydrogen; Hydrogen sulfide; Hydrophobic; Lithium-ion batteries; Membrane; Membrane distillation; Membrane modification; Membrane selection; Membrane technology; Membranes; Microbial fuel cell; Mixed matrix membrane; Modeling; Modification; MOF; MWCO; Nafion; Nanofiltration; Nanomaterial; Nanoparticle; Nitrification; Nutrient recovery; Ocean acidification; Oil-in-water separation; Oily wastewater; Organic hazardous materials; Oxygen enrichment; Permeability; Pervaporation; Photocatalytic membrane; Photodegradation; Plasticization; Polymer; Polymer composite; Polymer electrolyte; Polymer membrane; Polymeric membrane; Pore filling; Porous membranes; Power generation; Pressure-retarded osmosis; Processing techniques; Proton exchange membrane; Purifications; Reverse osmosis; Selectivity; Separation mechanism; Simultaneous nitrification and denitrification (SND); Solubility; Structure; Struvite formation; Synthetic polymer; Synthetic polymer membrane; Synthetic polymers; Thin film composite; Transport properties; Ultrafiltration; Vapor separation; Vehicle; Volatile organic compounds (VOCs); Wastewater; Wastewater treatment; Water treatment

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484 p. · 19x23.3 cm · Paperback

Synthetic Polymeric Membranes for Advanced Water Treatment, Gas Separation, and Energy Sustainability is a cutting-edge guide that focuses on advanced water treatment applications, covering oily wastewater treatment, desalination, removal of dyes and pigments, photodegradation of organic hazardous materials, heavy metal removal, removal and recovery of nutrients, and volatile organic compounds. Other sections examine the area of gas separation, including acidic gas removal, oxygen enrichment, gas and vapor separation, hydrogen separation, and gas sensing. Final sections cover applications for sustainable energy usage, including the use of synthetic polymer membranes in proton exchange membrane fuel cells (PEMFCs), and more.

This is a highly valuable guide for researchers, scientists, and advanced students, working with polymer membranes and films, and across polymer science, polymer chemistry, materials science, chemical e

Part 1: Advanced Water Treatment Applications of Synthetic Polymer Membranes: Structure, Preparation, and Applications 1. Synthetic polymer-based membranes for treatment of oily wastewater 2. Synthetic Polymer-based Membrane for Desalination 3. Synthetic Polymer-based Membrane for Dye and Pigment Removal 4. Synthetic Polymer-based Membrane for Photodegradation of Organic Hazardous Materials 5. Synthetic Polymer-based Membrane for Heavy Metal Removal 6. Application of Polymer-base Membrane for Nutrient Removal and Recovery in Wastewater 7. Synthetic Polymer-based Membranes for the Removal of Volatile Organic Compounds from Water 8. Forward Osmosis Membranes for Water Purification

Part 2:  Gas Separation Applications of Synthetic Polymer Membranes: Structure, Preparation, and Applications  9. Synthetic Polymer-based Membranes for Acidic Gas Removal 10. Synthetic Polymer-based Membranes for Oxygen Enrichment 11. Synthetic Polymeric Membranes for Gas and Vapor Separations 12. Synthetic Polymer-based Membranes for Hydrogen Separation 13. Polymeric Composite Membranes for Gas Separation: State-of-the-art 2D fillers

Part 3: Energy Sustainability Applications of Synthetic Polymer Membranes: Structure, Preparation, and Applications  14. Synthetic Polymer-based Membranes for Microbial Fuel Cell 15. Synthetic Polymer-based Membranes for Direct Methanol Fuel Cell (DMFC) Applications 16. Polymeric Composite Membranes for Anion Exchange Membrane Fuel Cells 17. Synthetic Polymer-based Membranes for Lithium Ion Batteries 18. Polymeric Membranes for Pressure-retarded Osmosis

Material researchers, Industrial sectors, engineers, students and laboratory technologists, industrial researchers, university professors, and graduate students in all membrane science fields
A.F. Ismail is a Professor at the Universiti Teknologi Malaysia (UTM), where he runs a membrane technology research group at AMTEC. He has also held the post of Dean of Research for the Materials and Manufacturing Alliance at UTM. Dr. Ismail’s research interests cover membrane formation, membranes for wastewaster treatment and gas separation, and nanofibers and nanostructured materials for energy applications. He has authored or edited 4 books, and published several book chapters. Dr. Ismail has received several awards, including the ASEAN Young Scientist and Technologist Award in 2001 (the first Malaysian to receive this award), the Malaysian Young Scientist Award in 2000, and the Malaysian Intellectual Property Award for the Patent Category, and the Merdeka Award for Scholastic Achievements in 2014. He was also the first Malaysian scientist to twice win the National Innovation Award in Waste to Wealth and Product categories, both in 2009 and 2011.
Prof. Dr. Ahmad Fauzi Ismail is the Founder and First Director of Advanced Membrane Technology Research Centre (AMTEC). His research interest are in development of polymeric, inorganic and novel mixed matrix membranes for water desalination, waste water treatment, gas separation processes, membrane for palm oil refining, photocatalytic membrane for removal of emerging contaminants, development of haemodialysis membrane and polymer electrolyte membrane for fuel cell applications. His research has been published in many high impact factor journals. He also actively authored many academic books in this field which published by reputable international publishers. He is the author and co-author of over 600 refereed journals. He has authored 6 books, over 50 book chapters and 4 edited books, 6 Patents granted, 14 Patents pending. His h-index is 66 with cumulative citation of over 19,300. He won more than 150 awards national and internationally. Among the most prestigious award won is the Merdeka Award for the Outstanding
  • Explains the design, preparation and characterization of synthetic polymer-based membranes for advanced applications
  • Provides a clear picture of the state-of-the-art in the field, including novel fabrication approaches and the latest advances in physico-chemical characterizations
  • Supports the development and implementation of innovative, sustainable solutions to water treatment, gas separation and energy devices