A company called Felite(tm) Resin Technology is the world leader in the manufacturing and service of ion exchange resins. The company produces both anion and cation exchange resins, and their products are used in water treatment, deionization, and metal removal. Their products go through a stringent quality control (QC) process before they leave the manufacturing facility. As a result, they offer a wide range of options to customers.
Felite(tm) Resin Technology is a global leader in the manufacture and service of ion exchange resins
Felite(tm) Resin Technology manufactures an extensive range of ion exchange and ion-exchange resins for a variety of industries. The company’s comprehensive product portfolio includes all major anion and cation types, as well as specialty products for metal removal. Customers rely on Felite resins for deionization, water treatment, pollution control, and hydrometallurgy. All products undergo a strict quality control (QC) process before leaving the factory.
IER is used to reduce the amount of substance released by drugs in liquids, which can be dissolved in water. It is also used for tablet disintegration and solubility enhancement. Depending on the application, ION exchange resins can remove up to 99% of dissolved ions. The ION exchange resins are made up of small beads with pores that are designed to capture and trap ions.
Characteristics of felitecn resin
Felite(tm) Resin Technology manufactures a broad range of ion exchange resins for a variety of applications. The company produces cation and anion resins, as well as specialty products for metal removal. The company’s products are used in a wide range of applications, including water treatment, hydrometallurgy, and industrial water treatment. The company’s resins are subject to full QC testing, meeting or exceeding industry standards.
The particle size distribution, as a function of concentration, affects the pressure drop through the bed. The particle size also determines the sharpness of adsorption wavefronts. The larger the particle size, the greater the adsorption bandwidth. Other factors affecting particle size and composition include service and regeneration temperatures, concentration of syrup dry solids, and the type of regenerant chemical. Several criteria are used to determine when to replace the resin.
Application in water treatment
Felite(tm) Resin Technology is a leading global manufacturer of ion exchange resins for water treatment and deionization. Their portfolio includes all the major cation and anion resins, along with specialty resins for metal removal. Applications range from water treatment and pollution control to hydrometallurgy. These resins are subject to strict quality control (QC) standards and are available in a range of grades, including specialty resins for metal removal and a variety of other processes.
Felite resins are equivalent to products produced by other manufacturers, and are backed by a 100% satisfaction guarantee. Because Felite manufactures its resins, you can rest assured that the product you receive will perform as promised. And because they are made in the U.S., you can trust them to meet all your water treatment needs. For example, Amberlite IRA 743 resin can be used to produce ultrapure water, after deionization.
Bead Integrity (BI) test
Bead integrity is an important measure of resin integrity. It helps evaluate whether the resin is still functional or has begun to deteriorate. In the Bead Integrity (BI) test for felitecn resin, the resin is treated with a known ionic form and regenerated using a different regenerant. The total capacity is measured after each cycle, and it’s recommended that the resin be replaced when it reaches 30% or less capacity. Cracks in the resin beads are evaluated by using a 20 to 100-X magnification microscope. Cracked beads allow faster kinetics to the internal exchange sites, resulting in lower leakage and higher throughput capacity.
In addition to the Bead Integrity (BI) test, this method also measures the amount of broken beads in the resin. Broken beads are small fragments that fill void spaces between whole beads, causing increased pressure drop across the bed. A microscope photo is typically included with this test. Broken beads also contribute to greater pressure drop across the bed, which may affect the resin’s performance.
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