Transport Properties of Polymeric Membranes

Transport Properties of Polymeric Membranes is an edited collection of papers that covers, in depth, many of the recent technical research accomplishments in transport characteristics through polymers and their applications. Using the transport through polymer membranes method leads to high separation efficiency, low running costs, and simple operating procedures compared to conventional separation methods. This book provides grounding in fundamentals and applications to give you all the information you need on using this method. This book discusses the different types of polymer, their blends, composites, nanocomposites and their applications in the field of liquid, gas and vapor transport. Some topics of note include modern trends and applications of polymer nanocomposites in solvent, vapor and gas transport; fundamentals and measurement techniques for gas and vapor transport in polymers; and transport properties of hydrogels. This handpicked selection of topics, and the combined expertise of contributors from global industry, academia, government and private research organizations, make this book an outstanding reference for anyone involved in the field of polymer membranes. Presents current trends in the field of transport of liquid, gas and vapor through various polymeric systems Features case studies focused on industrial applications of membrane technology, along with fundamentals of transport and materials Helps readers quickly look up a particular technique to learn key points, capabilities and drawbacks

Produk Detail:

  • Author : Sabu Thomas
  • Publisher : Elsevier
  • Pages : 724 pages
  • ISBN : 0128098856
  • Rating : 4/5 from 21 reviews
CLICK HERE TO GET THIS BOOKTransport Properties of Polymeric Membranes

Transport Properties of Polymeric Membranes

Transport Properties of Polymeric Membranes
  • Author : Sabu Thomas,Runcy Wilson,Anil Kumar S,Soney C George
  • Publisher : Elsevier
  • Release : 20 November 2017
GET THIS BOOKTransport Properties of Polymeric Membranes

Transport Properties of Polymeric Membranes is an edited collection of papers that covers, in depth, many of the recent technical research accomplishments in transport characteristics through polymers and their applications. Using the transport through polymer membranes method leads to high separation efficiency, low running costs, and simple operating procedures compared to conventional separation methods. This book provides grounding in fundamentals and applications to give you all the information you need on using this method. This book discusses the different types

Transport Properties of Polymeric Membranes

Transport Properties of Polymeric Membranes
  • Author : Soney C. George
  • Publisher : Unknown Publisher
  • Release : 13 November 2017
GET THIS BOOKTransport Properties of Polymeric Membranes

Transport Properties of Polymeric Membranes is an edited collection of papers that covers, in depth, many of the recent technical research accomplishments in transport characteristics through polymers and their applications. Using the transport through polymer membranes method leads to high separation efficiency, low running costs, and simple operating procedures compared to conventional separation methods. This book provides grounding in fundamentals and applications to give you all the information you need on using this method. This book discusses the different types

Water and Salt Transport Structure/property Relationships in Polymer Membranes for Desalination and Power Generation Applications

Water and Salt Transport Structure/property Relationships in Polymer Membranes for Desalination and Power Generation Applications
  • Author : Geoffrey Matthew Geise
  • Publisher : Unknown Publisher
  • Release : 19 October 2021
GET THIS BOOKWater and Salt Transport Structure/property Relationships in Polymer Membranes for Desalination and Power Generation Applications

Providing sustainable supplies of water and energy is a critical global challenge. Polymer membranes dominate desalination and could be crucial to power generation applications, which include reverse osmosis (RO), nanofiltration (NF), forward osmosis (FO), pressure-retarded osmosis (PRO), electrodialysis (ED), membrane capacitive deionization (CDI), and reverse electrodialysis (RED). Improved membranes with tailored water and salt transport properties are required to extend and optimize these technologies. Water and salt transport structure/property relationships provide the fundamental framework for optimizing polymer materials for

Nanostructured Polymer Membranes, Volume 2

Nanostructured Polymer Membranes, Volume 2
  • Author : Visakh P. M.,Olga Nazarenko
  • Publisher : John Wiley & Sons
  • Release : 26 August 2016
GET THIS BOOKNanostructured Polymer Membranes, Volume 2

The 2nd volume on applications with discuss the various aspects of state-of-the-art, new challenges and opportunities for gas and vapor separation of polymer membranes, membranes for wastewater treatment, polymer electrolyte membranes and methanol fuel cells, polymer membranes for water desalination, optical, electrochemical and anion/polyanion sensors, polymeric pervaporation membranes, organic-organic separation, biopolymer electrolytes for energy devices, carbon nanoparticles for pervaporation polymeric membranes, and mixed matrix membranes for nanofiltration application.

Characterization of Gas Transport Properties of Poly(dimethylsiloxane)-modified Membranes

Characterization of Gas Transport Properties of Poly(dimethylsiloxane)-modified Membranes
  • Author : Jaesung Park
  • Publisher : Unknown Publisher
  • Release : 19 October 2021
GET THIS BOOKCharacterization of Gas Transport Properties of Poly(dimethylsiloxane)-modified Membranes

Poly(dimethylsiloxane) (PDMS) is one of the most permeable polymers due to its high free volume and flexible nature. Substituent groups can be incorporated with PDMS, making it suitable for further modification. This research effort is aimed at developing the fundamental structure/property relations of three relatively novel PDMS-modified polymer membranes: UV-crosslinked PDMS-containing polyimide copolymers (PIS), PDMS/graphene oxide (GO) nanocomposites, and PDMS-coated reverse osmosis (RO) membranes. A series of newly synthesized PIS copolymer membranes and their corresponding UV-irradiated analogs

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

Synthetic Polymeric Membranes for Advanced Water Treatment, Gas Separation, and Energy Sustainability
  • Author : Ahmad Fauzi Ismail,Wan Norharyati Wan Salleh,Norhaniza Yusof
  • Publisher : Elsevier
  • Release : 14 May 2020
GET THIS BOOKSynthetic Polymeric Membranes for Advanced Water Treatment, Gas Separation, and Energy Sustainability

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

Water Hydrogen Bonding in Proton Exchange and Neutral Polymer Membranes

Water Hydrogen Bonding in Proton Exchange and Neutral Polymer Membranes
  • Author : Sarah Smedley
  • Publisher : Unknown Publisher
  • Release : 19 October 2021
GET THIS BOOKWater Hydrogen Bonding in Proton Exchange and Neutral Polymer Membranes

Understanding the dynamics of water sorbed into polymer films is critical to reveal structure-property relationships in membranes for energy and water treatment applications, where membranes must interact with water to facilitate or inhibit the transport of ions. The chemical structure of the polymer has drastic effects on the transport properties of the membrane due to the morphological structure of the polymer and how water is interacting with the functional groups on the polymer backbone. Therefore studying the dynamics of water

Polymer Membranes

Polymer Membranes
  • Author : T. deV. Naylor
  • Publisher : iSmithers Rapra Publishing
  • Release : 19 October 1996
GET THIS BOOKPolymer Membranes

This report describes the constitution and application of polymeric membranes in separation processes. The separation processes covered are reverse osmosis and nanofiltration, ultrafiltration, gas separation, pervaporation and ion exchange. An additional indexed section containing several hundred abstracts from the Rapra Polymer Library database provides useful references for further reading.

Molecular Imprinting of Polymers

Molecular Imprinting of Polymers
  • Author : Sergey Piletsky
  • Publisher : CRC Press
  • Release : 12 May 2006
GET THIS BOOKMolecular Imprinting of Polymers

One of Nature's most important talents is evolutionary development of systems capable of molecular recognition: distinguishing one molecule from another. Molecular recognition is the basis for most biological processes, such as ligandreceptor binding, substrate-enzyme reactions and translation and transcription of the genetic code and is therefore

Surface Engineering of Polymer Membranes

Surface Engineering of Polymer Membranes
  • Author : Zhi-Kang Xu,Xiao-Jun Huang,Ling-Shu Wan
  • Publisher : Springer Science & Business Media
  • Release : 15 May 2009
GET THIS BOOKSurface Engineering of Polymer Membranes

Surface Engineering of Polymer Membranes covers the processes that modify membrane surfaces to improve their in-service performance, meaning, to confer surface properties which are different from the bulk properties. Purposes may be to minimize fouling, modulate hydrophilicity/ hydrophobicity, enhance biocompatibility, create diffusion barriers, provide functionalities, mimic biomembranes, fabricate nanostructures, etc. First, the basics of surface engineering of polymer membranes are covered. Then topics such as surface modification by graft polymerization and macromolecule immobilization, biomimetic surfaces, enzyme immobilization, molecular recognition, and