Ion exchange resins by Robert Kunin Download PDF EPUB FB2
Comprehensive text provides sound understanding of the relevant factors in ion exchange and the theoretical tools needed to solve specific problems. Detailed coverage of ion exchangers, equilibria, kinetics, electrochemical properties, ion-exchanger membranes, much more.
Each chapter contains helpful summary and references. Accessible to nonmathematical students.5/5(1). While the present book is based mainly on ion exchange as practiced in the United States, the object was to produce a generally useful book Ion exchange resins book would deal with the fundamental problems, techniques, and operations of ion exchange such as mass transfer, equipment design, properties of ion exchange resins, and deionization.
Buy products related to ion exchange resins and see what customers say about ion exchange resins on FREE DELIVERY possible on eligible purchases. 6 Charcoal Water filters plus 6 Ion-Exchange Resin Water filters for Replacement Breville BWF, Pack Book Depository Books With Free Delivery Worldwide.
To fully understand how IX resins work, it is important to first understand the principles of the ion exchange reaction. Put simply, ion exchange is a reversible interchange of charged particles—or ions—with those of like charge. This occurs when ions present on an insoluble IX resin matrix effectively swap places with ions of a similar.
The main focus in this book is on ion exchange polymers: ion exchange resins, chelating resins, imprinted (templated), and other functional polymers.
It provides an in-depth study of ion exchange materials, suitable for postgraduate students and R&D industrial specialists in. An ion-exchange resin or ion-exchange polymer is a resin or polymer that acts as a medium for ion is an insoluble matrix (or support structure) normally in the form of small (– mm radius) microbeads, usually white or yellowish, fabricated from an organic polymer substrate.
The beads are typically porous, providing a large surface area on and inside them. The editors have built Ion Exchange Resins—Advances in Research and Application: Edition on the vast information databases of ScholarlyNews.™ You can expect the information about Anion Exchange Resins in this book to be deeper than what you can access anywhere else, as well as consistently reliable, authoritative, informed, and relevant.
This book provides broad coverage of ion exchange and its applications. Different chapters focus on the importance of ion exchange applications such as strengtening dental porcelains, gradient changes in glass refraction, and resins as effective sorbents.
Each chapter includes a brief historical overview of ion exchange and its applications. The authors also give a brief overview of these Cited by: 1.
Ion Ion exchange resins book Theory and Application focuses on the applications, complexities, and theoretical aspects of ion exchange.
This book discusses the kinetics of fixed-bed ion exchange; fundamental properties of ion exchange resins; ion exchange equipment design; Book Edition: 1. In SAMCO's latest e-book, An Introduction to Ion Exchange Resins, you'll learn all the basics you need to know about these resins, including: What ion exchange resins are and how they work; Different types of ion exchange resins and what applications they serve.
Ion-exchange Technology II: Applications presents an overview of the numerous industrial applications of ion-exchange materials. In particular, this volume focuses on the use of ion-exchange materials in various fields including chemical and biochemical separations, water purification, biomedical science, toxic metal recovery and concentration, waste water treatment, catalysis, alcohol.
Ion Exchange, 2nd Edition is a totally revised and updated version of the highly popular Monograph for Teachers, first published by The Royal Society of Chemistry in It covers the practical application of ion exchange and the synthesis of organic ion exchange resins, which have spanned nearly 60 years of development since the pioneering /5(2).
Rohm and Haas Ion Exchange Ion exchange introduction 4 FD Sep To soften water, you take a cation exchange resin on which the mobile ion inside the beads is sodium (Na+) and you pass the hard water through a column filled with the sodium form resin.
The hardness ions Ca++ and Mg++ move into the resin beads and each of these divalent. This book contains information about the technological development of ion exchange in their application for industrial processes.
Widely used and well known fields of ion exchange like chromatography and electromembrane technology are described in this book with experimental details.
Designing new materials for nanotechnology and nanomaterials as ion exchanger are also explained by Cited by: Ion exchange resins are classified as cation exchangers, which have positively charged mobile ions available for exchange, and anion exchangers, whose exchangeable ions are negatively charged.
Both anion and cation resins are produced from the same basic organic polymers. Ion exchange Technology Ca2+ 2Na+ Operation 2Na+ Ca2+ Regeneration Resin Description of process Ion exchangers are synthetic resins (organic polymers).
Various exchange-active groups, at which ions accumulate, are built into the exchangers. In the exchange process, the ions of the solution to be treated are exchanged with accumulatedFile Size: 1MB. Please also check the Ion exchange for dummies overview instruction For more information, quotation or a Rohm & Haas price list, please contact us: Feedback Form or call us on +31 More from 'Ion exchange resins'.
Ion exchange (IX) is the reversible interchange of ions between a solid and a liquid such as water. Ion exchange resins remove harmful contaminants from liquids, replacing them with beneficial, desired ions.
Ion exchange is used in water treatment, including water softening, industrial demineralization, condensate polishing, ultrapure water. The six-volume CRC Handbook of Ion Exchange Resins reviews the application of ion exchange resins to inorganic analytical chemistry.
Extracted from over 6, original publications, it presents the information in over 1, tables complemented by concise descriptions of analytical methods involving virtually all the elements of the periodic s: 1.
Ion exchange resins are particularly well suited for the removal of ionic impurities for several reasons: the resins have high capacities for ions that are found in low concentrations, the resins are stable and readily regenerated, temperature effects are for the most part negligible, and the process is excellent for both large and small installations, for example, from home water softeners to.
Ion exchange usually describes a processes of purification of aqueous solutions using solid polymeric ion exchange precisely, the term encompasses a large variety of processes where ions are exchanged between two electrolytes.
Aside from its use to purify drinking water, the technique is widely applied for purification and separation of a variety of industrially and medicinally.
Ion-exchange resin, any of a wide variety of organic compounds synthetically polymerized and containing positively or negatively charged sites that can attract an ion of opposite charge from a surrounding resins commonly consist of a styrene-divinylbenzene copolymer (high molecular weight substance), although other compositions, such as methacrylic acid–divinylbenzene and phenol.
In the middle 's, ion exchange resins were developed based on the copolymerization of styrene cross-linked with divinylbenzene. These resins were very stable and had much greater exchange capacities than their predecessors.
The polystyrene-divinylbenzene-based anion exchan-ger could remove all anions, including silicic and carbonic acids. Ion exchange resins are available in different particle (bed) size. Common ion exchange resins are manufactured in form of polydispersed spherical beds with the size distributed within the range ” (mm) or in form of uniform particle size (UPS).
Smaller particles. Analytical Chemistry, Volume Ion Exchange in Analytical Chemistry provides a broad survey of the important role that ion exchange can and should play in chemical analysis.
This book focuses on the plate-equilibrium theory of chromatography, which is less difficult theoretically than the mass-transfer Edition: 1. Ion exchange resins encompass one of the most important scientific developments of the 20 th century.
Their applicability to water softening, wastewater treatment, hydrometallurgy, chromatography. Ion exchange resins are polymers that are capable of exchanging particular ions within the polymer with ions in a solution that is passed through them. Weak anion exchange resins, containing ammonium chloride or hydroxide.
Additional types of ion exchange resins include blends of cation and anion exchange resins, called mixed bed resins. A resin which contains both an anion and a cation as bound ions is said to be ampholytic. Some ion exchange resins are prepared with chelating properties File Size: KB.
COVID Resources. Reliable information about the coronavirus (COVID) is available from the World Health Organization (current situation, international travel).Numerous and frequently-updated resource results are available from this ’s WebJunction has pulled together information and resources to assist library staff as they consider how to handle coronavirus.
Book Description The six-volume CRC Handbook of Ion Exchange Resins reviews the application of ion exchange resins to inorganic analytical chemistry. Extracted from over 6, original publications, it presents the information in over 1, tables complemented by concise descriptions of analytical methods involving virtually all the elements of.
Additional Physical Format: Online version: Kunin, Robert. Ion exchange resins. New York, Wiley  (OCoLC) Material Type: Internet resource.These test methods cover the determination of the physical and chemical properties of ion-exchange resins when used for the treatment of water.
They are intended for use in testing both new and used materials. The following thirteen test methods are included.*ion‐exchange resin* An organic compound that will adsorb ions under some conditions and release them under others.
The best‐known example is in water‐softening, where calcium ions are removed from the water by binding to the resin, displacing sodium ions.