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S957, Mixed Acid Cation ResinCatalog Number 50237
Purolite® S957 Mixed Acid Cation Resin is a specially developed Monophos™ chelating resin, which incorporates phosphonic, and sulfonic functional groups on a mechanically and osmotically resistant matrix.
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UCW5072, Low TOC Strong Base Anion Resin, OH FormCatalog Number 50240
Purolite® UCW5072, Low TOC Strong Base Anion Resin, OH Form is a gel type 1 strong base anion exchange resin specially cleaned for Ultra-Pure Water demands.
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MB3710, Standard Mixed Bed Resin, H/OH FormCatalog Number 50227
Purolite® MB3710, Standard Mixed Bed Resin, H/OH Form ready to use mixed bed resins has 1:1 chemical equivalence and high exchange capacity. This resin is specially purified to ensure high percentage conversion to the regenerated form and is offered in a closely controlled particle size range.
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UCW3700, Low TOC Mixed Bed, H/OH FormCatalog Number 50229
Purolite® UCW3700, Low TOC Mixed Bed, H/OH Form mixed bed resin is ready to use, 1:1 chemical equivalent that is highly regenerated in the H+ and OH- forms. UCW3700 resins are manufactured by a proprietary process that achieves the high purity for ultra-pure water applications for the micro-electronics and semi-conductor industry (May also be suitable for special applications in pharmaceuticals).
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A400, Type 1 Porous Strong Base Anion Resin, Chorlide FormCatalog Number 50218
Purolite® A400, Type 1 Porous Strong Base Anion Resin, Chorlide Form is a clear gel Type 1 strong-base anion exchanger with both high operating capacity and the ability to achieve low residual silica levels.
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A860, Type 1 Macroporous Acrylic Strong Base Anion Resin, Chloride FormCatalog Number 50221
- Application - Decolorisation of Sugar Solutions; Organic Scavenger
- Polymer Structure - Macroporous polyacrylic crosslinked with divinylbenzene
- Appearance - Spherical beads
- Functional Group - Quaternary Ammonium
- Ionic Form as Shipped - Cl-
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A510, Type 2 Macroporous Strong Base Resin, Chloride FormCatalog Number 50223
- Application - Demineralization with High Regeneration Efficiency and Dealkalization
- Polymer Structure - Macroporous polystyrene crosslinked with divinylbenzene
- Appearance - Spherical beads
- Functional Group - Type 2 Quaternary Ammonium
- Ionic Form as Shipped - Cl-
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A830, High Capacity Weak Base Acrylic Anion Resin, Free Base FormCatalog Number 50226
Purolite® A830, High Capacity Weak Base Acrylic Anion Resin, Free Base Form is a high capacity macroporous anion exchange resin with an acrylic matrix. This matrix ensures excellent and fast removal of both mineral and organic acids.
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A835, Weak Base Anion Exchange ResinCatalog Number 50274
Purolite® A835, Weak Base Anion Exchange Resin is a macroporous-type anion exchange resin with an acrylic matrix. The macroporous acrylic matrix ensures excellent removal of organic acids including those of high molecular weight from process liquors.
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Cellulose, phosphate (Selectacel® phosphate)Catalog Number 19792Inquire for availability.Phone: 1(800)523-2575Email: [email protected]
Bifunctional cation exchanger in which both strong and weak acid groups exist. Adsorbs certain cations from very acidic media.
- Type 40
- Flow time (sec/10ml): 280-460
- Specific Volume (ml/g,wet): 5-6.5
- Capacity (Meq/g [±.1]): 0.9
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Amberlite® 200Catalog Number 15617
For separation of rare earths, amino acids.
Strong acid (sodium sulfonate), 0.49mm, capacity 1.7 meq/ml (wet).
Amberlite is a registered trademark of Rohm and Haas Co.
Purolite Resins
Nuclear power plants are currently operated in 31 countries with 15 more countries currently planning the construction of their first nuclear power plants. Nuclear power generation will continue to grow as a strategic option due to the increasing cost of fossil fuel based energy and the pressure to reduce greenhouse gases.
Ion exchange resins in both bead and powder form are used extensively in all types of nuclear power plants throughout the world. Ion exchange systems are the most cost effective and in some cases the only way to produce water with the quality required for proper plant operation.
Ion exchange plays a vital role in the elimination of soluble chemical components that contribute to corrosion as well as removing corrosion products and radioactive isotopes from the different coolant circuits. The objective of controlling these chemistries is to protect the nuclear generating systems from corrosion, extend the system life and maintain a safe working environment in and around the plant.