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AQUALAST™ 1812

FILMTEC™ AQUALAST™ 1812 elements for home drinking water treatment units produce 75 GPD (11.9 L/h) of permeate with 99% stabilized salt rejection at standard test conditions. They are shipped dry for convenient handling and long shelf-life. ’s next generation elements are a fully compatible replacement for existing FILMTEC residential RO elements. AQUALAST™ 1812 elements have been tested and certified by NSF International against NSF/ANSI Standard 58 for material requirements only for safe use in drinking water applications.

EDI-310

DOW™ EDI-310 Modules are made using a patented spiral wound design containing membrane and ion exchange resins sealed in a high-strength fiberglass reinforced plastic (FRP) pressure vessel. DOW EDI-310 Modules optimize performance, maintain continuous product quality and can produce up to 18 megohm-cm product water for high purity and ultrapure industrial water applications.

Specialty Membranes XUS180808 Ultra-High Pressure RO Element

"The DOW™ Specialty Membranes XUS180808 Reverse Osmosis Element is an ultra-high pressure element for industrial water purification offering an industry wide distinct combination of features. The element can operate up to 120 bar (1,740 psi) due to a distinct element and membrane design which allows increasing the overall efficiency of Minimal Liquid Discharge (MLD) and Zero Liquid Discharge (ZLD) systems. The ultrahigh feed pressure results in very high solute concentrations thus helping to reduce the size of nstream conventional treatment processes or reuse water and concentrated brine directly. The FILMTEC™ seawater reverse osmosis (RO) membrane sheet guarantees excellent rejection and durability at ultra-high pressure and extreme salt concentrations. The products are ideal for the recovery of salts in process streams and concentration of waste streams in various industries."

Specialty Membranes XUS290508 and XUS290504 High Temperature NF Element

The DOW™ Specialty Membranes XUS290508 and XUS290504 High Temperature Nanofiltration Elements offer a distinct combination of features. It allows up to 70°C continuous operating temperature capability thus reducing the size of cooling and heating systems. The 34 mil feed spacer allows for maximum active membrane surface area while lessening the impact of fouling, reducing the pressure drop across the pressure vessel and enhancing cleaning effectiveness. The element is ideally suited for applications like waste brine recycling from sugar decolorization, concentration of thin juice sugars or components in chemical processing, and sulfate removal in chloralkali process streams.

Ultrafiltration SFD-2660

DOW™ Ultrafiltration SFD-2660 Modules are an ideal choice for systems with capacities of 50 m3/hr (220 gpm) or less. The shorter, 60-inch length module offers higher efficiencies over a wider range of feed water conditions compared to longer modules and also makes it an ideal choice for containerized system designs. The smaller, 6-inch diameter module allows a more compact design for space-constrained installations. DOW Ultrafiltration SFD-2660 Modules are made from high-strength, PVDF hollow fiber membranes. DOW Ultrafiltration SFD-2660 Modules have been tested and certified by NSF International under NSF/ANSI Standard 61 for safe use in drinking water applications.

Ultrafiltration SFD-2860

DOW™ Ultrafiltration SFD-2860 Modules are an ideal choice for systems with capacities greater than 50 m3/hr (220 gpm). The large, 8-inch diameter module offers high effective membrane area, contributing to a more economical membrane system design. The shorter, 60-inch length module offers higher efficiencies over a wider range of feed water conditions compared to longer modules and also makes it an ideal choice for containerized system designs. DOW Ultrafiltration SFD-2860 Modules are made from high-strength, PVDF hollow fiber membranes. DOW Ultrafiltration SFD-2860 Modules have been tested and certified by NSF International under NSF/ANSI Standard 61 for safe use in drinking water applications.

Ultrafiltration SFD-2880

DOW™ Ultrafiltration SFD-2880 Modules are an ideal choice for systems with capacities greater than 50 m3/hr (220 gpm). With an 8-inch diameter and 80-inch length, together with an increase in packing density of 10,000 fibers, this module offers 77 m2 of active area. The DOW Ultrafiltration SFD-2880 Module contributes to a more economical membrane system design. DOW Ultrafiltration SFD-2880 Modules are made from high-strength, PVDF hollow fiber membranes. DOW Ultrafiltration SFD-2880 Modules have been tested and certified by NSF International under NSF/ANSI Standard 61 and under Standard 419 for Public Drinking Water Equipment (PDWE) for safe use in drinking water applications.

Ultrafiltration SFP-2660

DOW™ Ultrafiltration SFP-2660 Modules are an ideal choice for systems with capacities of 50 m3/hr (220 gpm) or less. The shorter, 60-inch length module offers higher efficiencies over a wider range of feed water conditions compared to longer modules and also makes it an ideal choice for containerized system designs. The smaller, 6-inch diameter module allows a more compact design for space-constrained installations. DOW Ultrafiltration SFP-2660 Modules are made from high-strength, PVDF hollow fiber membranes.

Ultrafiltration SFP-2860

DOW™ Ultrafiltration SFP-2860 Modules are an ideal choice for systems with capacities greater than 50 m3/hr (220 gpm). The large, 8-inch diameter module offers high effective membrane area, contributing to a more economical membrane system design. The shorter, 60-inch length module offers higher efficiencies over a wider range of feed water conditions compared to longer modules and also makes it an ideal choice for containerized system designs. DOW Ultrafiltration SFP-2860 Modules are made from high-strength, PVDF hollow fiber membranes.

Ultrafiltration SFP-2880

DOW™ Ultrafiltration SFP-2880 Modules are an ideal choice for systems with capacities greater than 50 m3/hr (220 gpm). With an 8-inch diameter and 80-inch length, together with an increase in packing density of 10,000 fibers, this module offers 77 m2 of active area. The DOW Ultrafiltration SFP-2880 contributes to a more economical membrane system design. DOW Ultrafiltration SFP-2880 Modules are made from high-strength, PVDF hollow fiber membranes.

ADSORBSIA™ As600

It is designed as a non-regenerative (single-use) adsorbent for the treatment of drinking ... The inherently high adsorptive capacity of this titanium oxide based technology has been ... Uses:

AMBERCHROM™ CG300M

AMBERCHROM™ CG300M Chromatography Resin is a macroporous, adsorbent resin designed for use in capture and purification steps of downstream processing of synthetic oligonucleotides and polypeptides, such as insulin.

AMBERCHROM™ CG71M

AMBERCHROM™ Chromatography Resins are macroporous, polymeric resins useful for adsorption and reversed-phase liquid chromatography. ... They are designed for laboratory- and process-scale purificat...

AMBERCHROM™ XT30

AMBERCHROM™ XT30 Chromatography Resin is a macroporous, adsorbent resin. It is a highly efficient, 30-micron, pH-stable resin for use in reversed phase chromatography. In particular, it is used in the purification of pharmaceuticals and biopharmaceuticals, such as small proteins, peptides and oligonucleotides.

AMBERJET™ UP1400

AMBERJET™ UP1400 Ion Exchange Resin is a uniform particle size, gel, strong acid cation exchange resin developed specifically for use in producing ultrapure water for the semiconductor industry. It can be used in individual vessels or in mixed bed units with AMBERJET™ UP4000 Anion Resin.

AMBERJET™ UP4000

AMBERJET™ UP4000 Ion Exchange Resin is a uniform particle size, gel, strong base anion exchange resin developed specifically for use in producing ultrapure water for the semiconductor industry. It can be used in individual vessels or in mixed bed units with AMBERJET™ UP1400 Cation Resin.

AMBERJET™ UP6040

AMBERJET™ UP6040 Ion Exchange Resin is a mixture of semiconductor-grade, extremely high purity, uniform particle size, gel, strong acid cation and strong base anion exchange resins. AMBERJET UP6040 mixed bed resin is intended for use as a final polishing step in the production or ultrapure water.

AMBERJET™ UP6150

AMBERJET™ UP6150 Ion Exchange Resin is a mixture of uniform particle size, gel, strong acid cation and strong base anion exchange resins. AMBERJET UP6150 mixed bed resin is a fully regenerated. It intended for use in high purity water systems after reverse osmosis. This mixed bed product is particularly suitable for use in the polishing of high purity water for specialty electronics applications such as the manufacturing of disk drives, display devices, CD-ROMs, discrete semiconductor devices, lower density IC chips, or in the back-end chip dicing and mounting operations.

AMBERLITE™ 14i

AMBERLITE™ 14i Inert Resin is a floating, non-functionalized, transparent, cylindrical-shaped resin specifically designed for use as an upper layer in down-flow regenerated ion exchange systems, such as floating beds. This inert resin has a specific gravity lower than water, which ensures it will stay above the ion exchange resin bed. The inert forms a protective layer to prevent plugging of the distribution nozzles during the compaction/bed-lift step in case fines are present in the resin bed. Use of AMBERLITE 14i is optional in AMBERPACK™ Ion Exchange Systems with AMBERLITE HPR packed bed resins installed.

AMBERLITE™ 600i

"AMBERLITE™ 600i Inert Resin is a non-functionalized, spherical resin used in mixed beds. Its density and particle size are tightly controlled to have a terminal settling velocity that is intermediate to those of the cation exchange resin and anion exchange resin, creating an inert zone between the functional resins wherein the regenerant is collected. This inert zone reduces the risk of cross-regeneration, improving water quality and rinse time whether it is used in internally- or externally-regenerated mixed bed systems. AMBERLITE 600i is used in condensate polishing systems for the electrical power generation industry and in other high-purity mixed bed systems."

AMBERLITE™ 62i

AMBERLITE™ 62i Inert Resin is a floating, non-functionalized, transparent, amorphous-shaped resin with properties specifically designed for use as an upper layer in up-flow regenerated ion exchange systems, such as UPCORE™ Packed Bed Systems. This inert resin has a specific gravity lower than water, which ensures it will stay above the ion exchange resin bed. Its self-distributing properties allow it to evenly cover the available cross-sectional area, forming a protective layer that allows dirt and resin fragments to pass through while retaining the resin bed during the compaction/bed-lift step prior to regeneration.

AMBERLITE™ FPA40 Cl

AMBERLITE™ FPA40 Cl Ion Exchange Resin is a gel, strong base (Type I) anion exchange resin, supplied in the Cl-form. While the resin has a gel matrix, it also exhibits some of the physical stability characteristics of macroporous resins. These properties make it ideally suited to the reversible uptake of organic color bodies commonly found in sucrose syrups. AMBERLITE FPA40 Cl resin can be used to decolorize sugar solutions < 200 ICUMSA and it can also be used in bioprocessing applications including the capture and recovery of clavulanic acid and decolorization of antibiotics.

AMBERLITE™ FPA42 Cl

AMBERLITE™ FPA42 Cl Ion Exchange Resin is a uniform particle size, gel, strong base (Type I) anion exchange resin, supplied in the Cl-form. It is used for general demineralization and deashing where the risk of fouling from colored bodies and organics is relatiely low. The uniformity and mean particle size of AMBERLITE FPA42 Cl have been optimized for use in equipment including mixed beds.

AMBERLITE™ FPA51

AMBERLITE™ FPA51 Ion Exchange Resin is a macroporous, weak base anion resin. It is designed for the deacidification and purification of liquid foods and beverages. It is specifically useful in the deacidification of fruit juices and the production of neutral beverage bases from both fruit and malted sources.

AMBERLITE™ FPA53

AMBERLITE™ FPA53 Ion Exchange Resin is a gel, weak base anion resin. It is used in the deacidification of food streams including organic acids and dairy products. AMBERLITE FPA53 resin contains tertiary amine functionality on an acrylic matrix with an absence of strongly basic exchange sites, making it unique in the food processing industry. AMBERLITE FPA53 can also be used to remove color bodies from antibiotic solutions. Because of its flexible acrylic polymeric matrix, it provides superior physical stability, less fouling and less breakdown yielding in longer life time within this type of application.

AMBERLITE™ FPA54

AMBERLITE™ FPA54 Ion Exchange Resin is a macroporous, weak base anion resin. This unique, highly porous resin is based on a crosslinked phenol-formaldehyde matrix. The low swelling characteristics of AMBERLITE FPA54 resin give it excellent osmotic and physical stability resulting in less product loss and longer product life than conventional styrenic resins. The combination of the unique porous matrix and the hydrophilic phenolic structure of AMBERLITE FPA54 permit the reversible adsorption of high molecular weight organic color bodies frequently found in solutions of natural products and fermentation products. AMBERLITE FPA54 resin exhibits a high selectivity for sulfates and phosphates, making it ideal for the treatment of both citric and lactic acids derived from fermentation where it has a long history of use, particularly due to its excellent osmotic stability. It can be more effective than conventional polystyrene resins in this and other food product applications.

AMBERLITE™ FPA55

AMBERLITE™ FPA55 Ion Exchange Resin is a gel, weak base anion resin. This low-rinse, acrylic resin is designed for the deacidification of beverages and liquid foods, including starch-based specialty sweeteners.

AMBERLITE™ FPA58 Cl

AMBERLITE™ FPA58 Cl Ion Exchange Resin is a gel, strong base anion exchange resin. It is specially designed for use in food processing applications. It is an excellent resin of choice for ionic species removal and process stream purification. Because of its acrylic polymeric matrix, it provides superior physical stability and organic fouling resistance compared to conventional polystyrene-based resins. Less breakdown and less fouling yields longer life time within this type of application.

AMBERLITE™ FPA90 Cl

AMBERLITE™ FPA90 Cl Ion Exchange Resin is a macroporous, strong base anion exchange resin, supplied in the Cl-form. It is designed for the decolorization of liquid sugar syrups and has been successfully used by sugar refiners and soft drinks bottlers around the world to decolorize sucrose solutions. AMBERLITE FPA90 Cl resin can also be used to decolorize pharmaceutical products or as a guard bed to protect valuable chromatography media.

AMBERLITE™ FPA900UPS Cl

AMBERLITE™ FPA900UPS Cl Ion Exchange Resin is a uniform particle size, macroporous, strong base (Type I) anion exchange resin. It has exceptional physical stability, excellent resistance to osmotic shock, and very good organic fouling resistance. It is ideally suited for cane sugar decolorization.

AMBERLITE™ FPA90RF Cl

AMBERLITE™ FPA90RF Cl Ion Exchange Resin is a macroporous, strong base anion exchange resin, supplied in the Cl-form. It is designed for the decolorization of liquid sugar syrups and has been successfully used by sugar refiners and soft drinks bottlers around the world to decolorize sucrose solutions. AMBERLITE FPA90RF Cl can also be used to decolorize pharmaceutical products or as a guard bed to protect valuable chromatography media. The particle size distribution of AMBERLITE FPA90RF Cl resin has been specially selected to give optimum performance in floating and packed bed applications.

AMBERLITE™ FPA98 Cl

AMBERLITE™ FPA98 Cl Ion Exchange Resin is a macroporous, strong base anion exchange resin, supplied in the Cl-form. It is specially designed for the decolorization of highly colored (greater than 500 ICUMSA) liquid sugar syrups. The acrylic composition of the matrix provides excellent desorption of the organic color bodies during regeneration, reducing the fouling associated with other types of resin such as those based on crosslinked polystyrene. AMBERLITE FPA98 Cl Resin also exhibits excellent resistance to physical breakdown by attrition and osmotic shock. AMBERLITE FPA98 Cl resin can be used alone as a gross decolorization resin for highly-colored sugar solutions or in combination with AMBERLITE™ FPA90 Cl Ion Exchange Resin where the latter is used as a polisher for very low color final products. This use of ion exchange based decolorization technology has proven more effective and economical than carbon or bone char based technologies for sugar solutions. AMBERLITE FPA98 Cl resin is also used for the capture and purification of pharmaceutical products such as Heparin and as guard beds for valuable chromatography media.

AMBERLITE™ FPC11 Na

AMBERLITE™ FPC11 Na Ion Exchange Resin is a gel, strong acid cation exchange resin, supplied in the Na-form. It is designed specifically for the recovery of lysine and other amino acids from fermentation broths.

AMBERLITE™ FPC14 Na

AMBERLITE™ FPC14 Na is a gel, strong acid cation exchange resin, supplied in the Na-form. It has been specially developed for food applications following a special solvent-free manufacturing process. Its principle application is the decalcification of saccharose thin juice in the production of sugar from beets and it can also be used in the recovery of amino acids.

AMBERLITE™ FPX62

AMBERLITE™ FPX62 Polymeric Adsorbent is a macroreticular adsorbent resin with some cation functionality. It can be used for a wide variety of food processing applications to both recover high value materials, including proteins, and to purify and decolorize food and food additive streams. In addition, AMBERLITE FPX62 resin is an excellent choice for separation and purification of small molecular weight compounds such as antibiotics, vitamins, steroids, amino acids, enzymes and peptides. AMBERLITE FPX62 resin has excellent physical resistance and thermal stability making it ideal for use in column or batch systems over a large number of process cycles.

AMBERLITE™ FPX66

AMBERLITE™ FPX66 Polymeric Adsorbent is a macroreticular, non-functionalized, adsorbent resin. It is used for a wide variety of food processing applications to both recover high value materials and to purify and decolorize food and food additive streams. It is particularly well-suited for the removal of bittering components from citrus juices. AMBERLITE FPX66 resin has excellent physical resistance and thermal stability making it ideal for use in column-based systems over a large number of process cycles. AMBERLITE FPX66 is also used for the capture, recovery, and purification of bioactive molecules in the pharmaceutical industry.

AMBERLITE™ FPX68

"AMBERLITE™ FPX68 Polymeric Adsorbent is a macroreticular adsorbent resin. It can be used for a wide variety of food processing applications to both recover high value materials, including proteins, and to purify and decolorize food and food additive streams. In addition, AMBERLITE FPX68 resin is an excellent choice for separation and purification of small molecular weight compounds such as antibiotics, vitamins, steroids, amino acids, enzymes and peptides. AMBERLITE FPX68 resin has excellent physical and thermal stability making it ideal for use in column or batch systems over a large number of process cycles."

AMBERLITE™ HPR1100 Na

"AMBERLITE™ HPR1100 Na Ion Exchange Resin is a Uniform Particle Size, Gel, Strong Acid Cation Exchange Resin for Industrial Softening Applications. It is a high-quality resin for use in industrial softening applications when high performance and cost-effective operation is required. The chemical properties and particle size of the resin have been optimized to help yield excellent operating capacity and rinse characteristics, while reducing chemical regenerant and rinse water usage."

AMBERLITE™ HPR1200 H

"AMBERLITE™ HPR1200 H Ion Exchange Resin is a Uniform Particle Size, Gel, Strong Acid Cation Exchange Resin for Industrial Demineralization Applications. It is the go-to, high-quality resin for use in industrial demineralization applications when high performance and cost-effective operation is required. The chemical properties and particle size of the resin have been optimized to help yield excellent operating capacity and rinse characteristics, while reducing chemical regenerant and rinse water usage. AMBERLITE HPR1200 H is compatible with all system technologies; it has the flexibility to be used in both the lead cation bed and in mixed bed polishers, allowing users to inventory only one strong acid cation resin for their demineralization needs. In mixed bed applications, the dark color of this cation resin is designed to allow easy visual distinction from the light-colored anion resin following backwash separation. "

AMBERLITE™ HPR1200 Na

"AMBERLITE™ HPR1200 Na Ion Exchange Resin is a Uniform Particle Size, Gel, Strong Acid Cation Exchange Resin for Industrial Softening Applications It is a high-quality resin for use in industrial softening applications when high performance and cost-effective operation is required. The chemical properties and particle size of the resin have been optimized to help yield excellent operating capacity and rinse characteristics, while reducing chemical regenerant and rinse water usage. AMBERLITE HPR1200 Na is compatible with all system technologies. It is available for demineralization applications when the sodium-form is preferred by the user. For more details on the use of this product for demineralization, refer to the product data sheet for AMBERLITE™ HPR1200 H Ion Exchange Resin."

AMBERLITE™ HPR1300 H

"AMBERLITE™ HPR1300 H Ion Exchange Resin is a Uniform Particle Size, Gel, Strong Acid Cation Exchange Resin for Condensate Polishing in the Power Industry and Industrial Demineralization Applications. It is a high-quality resin for use in condensate polishing beds at fossil-fired electric generating stations and in industrial demineralization applications when a balance of operating performance, simple operation, long resin life, and cost-effective operation is required. The chemical properties and particle size of the resin have been optimized to help yield excellent operating capacity and rinse characteristics, reducing chemical regenerant and rinse water usage while maintaining a superior physical stability. AMBERLITE HPR1300 H provides great mechanical strength and oxidative stability. It is ideally suited to the high flowrate demands of condensate polishing applications. The enhanced stability of this resin makes it suitable for the more challenging industrial applications or when more stringent water quality is required. In working and polishing mixed beds, it is a good choice when very low sodium leakage and conductivity is a chief concern. In condensate polishing the bead size uniformity and dark color is tailored to complement the smaller, less dense, anionic, gel AMBERLITE™ HPR4700 OH Ion Exchange Resin. The color distinction between this pair of resins allows easy visual confirmation of separation following backwash in mixed bed operation. In systems where exceptional resistance to surface fouling is required, AMBERLITE™ HPR900 OH Ion Exchange Resin is the recommended pairing. In industrial water applications AMBERLITE HPR1300 H is compatible with all system technologies and bed configurations and is designed to work with a variety of anion resins in mixed beds. AMBERLITE™ HPR8300 H Ion Exchange Resin is the weak acid cation resin best paired with AMBERLITE HPR1300 H for optimal performance in new and retrofitted layered beds."

AMBERLITE™ HPR1300 Na

"AMBERLITE™ HPR1300 Na Ion Exchange Resin is a Uniform Particle Size, Gel, Strong Acid Cation Exchange Resin for Industrial Softening Applications. It is a high-quality resin for use in industrial softening when managing a more thermally or oxidatively challenging water stream. It offers a balance of operating performance, simple operation, long resin life, and cost-effective operation. The chemical properties and particle size of the resin have been optimized to help yield excellent operating capacity and rinse characteristics, reducing chemical regenerant and rinse water usage while maintaining a superior physical stability. AMBERLITE HPR1300 Na is compatible with all system technologies and bed configurations. For more details on the use of this product for demineralization, refer to the product data sheet for AMBERLITE™ HPR1300 H Ion Exchange Resin."

AMBERLITE™ HPR1400 H

AMBERLITE™ Ion Exchange Resins are available in a very wide range of chemical compositions and polymer structures and have been used for decades in a high-value applications including water treatme...

AMBERLITEHPR1600H

AMBERLITE™ Ion Exchange Resins are available in a very wide range of chemical compositions and polymer structures and have been used for decades in a high-value applications including water treatme...

AMBERLITE™ HPR2000 H

"AMBERLITE™ HPR2000 H Ion Exchange Resin is a Uniform Particle Size, Macroporous, Strong Acid Cation Exchange Resin for Condensate Polishing and Mixed Bed Demineralization Applications for the Power Industry. It is intended for use in mixed bed polishing applications when highest resin purity and water quality are required. The very high level of DVB crosslinker, combined with a macroporous structure, offers exceptional physical and oxidative stability and sodium selectivity. The exceptional physical and oxidative stability maximizes useful life of the cation resin. These properties also minimize the release of organic sulfonate leachables (TOC), helping to preserve the kinetic response of the anion exchange resin in the mixed bed, enabling lower levels of sulfate in the steam generator or boiler, which is especially critical in PWR plants where organic amines are used. The chemical stability also makes it especially suitable for high-temperature operation. The high sodium selectivity allows longest runtimes in amine cycle operation. AMBERLITE HPR2000 H can operate reliably under the high flowrate and pressure drop conditions that are typically used in condensate polishers. The particle size and uniformity and color distinction of AMBERLITE HPR2000 H allow for excellent backwash separation when used in mixed beds with AMBERLITE™ HPR9000 OH Ion Exchange Resin, which offers excellent resistance to surface fouling. Together, these resins are known throughout the industry as a premium macroporous mixed bed resin pairing."

AMBERLITE™ HPR252 H

"AMBERLITE™ HPR252 H Ion Exchange Resin is a Uniform Particle Size, Macroporous, Strong Acid Cation Exchange Resin for Condensate Polishing for the Power Industry and Industrial Demineralization Applications. It is specifically designed for use in condensate polishing beds at fossil-fired electric generating stations and industrial demineralization applications when a balance of operating performance, simple operation, long resin life, and cost-effective operation is required. The high level of DVB crosslinker, combined with a macroporous structure, offers exceptional physical and oxidative stability, making it especially suitable for high-temperature operation. AMBERLITE HPR252 H can operate reliably under the high flowrate and pressure drop conditions that are typically used in condensate polishers. This resin is designed to be used in combination with AMBERLITE™ HPR900 OH Ion Exchange Resin and AMBERLITE™ 600i Inert Resin in TRIOBED™ Condensate Polishers, providing an optimized balance of stability, operating capacity, low pressure drop, and regeneration efficiency. The balance of bead size distribution and bead density allows excellent separability, making it an optimal choice for layered beds in industrial demineralization."

AMBERLITE™ HPR2800 H

"AMBERLITE™ HPR2800 H Ion Exchange Resin is a Uniform Particle Size, Macroporous, Strong Acid Cation Exchange Resin for Condensate Polishing for the Power Industry and Industrial Demineralization Applications. It is a high-quality resin for use in condensate polishing beds at fossil-fired electric generating stations, process condensate, and industrial demineralization applications when a combination of exceptional physical stability, simple and reliable operation, and long resin life is required. AMBERLITE HPR2800 H is compatible with all system technologies and bed configurations. In mixed bed applications, the dark color of this cation resin is designed to allow easy visual distinction from the light-colored anion resin following backwash separation. For maximum resistance to surface fouling, this macroporous cation resin should be paired with a macroporous anion resin such as AMBERLITE™ HPR900 OH Ion Exchange Resin or AMBERLITE™ HPR9000 OH Ion Exchange Resin. AMBERLITE™ HPR8300 H Ion Exchange Resin is the weak acid cation resin best paired with AMBERLITE HPR2800 H for optimal performance in new and retrofitted layered beds. AMBERLITE HPR2800 H is compliant with the China National Standard specifications for fossil power condensate polishing applications, including the China Strong Osmotic Ball Mill test."

AMBERLITE™ HPR2900 H

"AMBERLITE™ HPR2900 H Ion Exchange Resin is a Uniform Particle Size, Macroporous, Strong Acid Cation Exchange Resin for Industrial Demineralization Applications. It is a robust, high-quality resin for use in industrial demineralization applications when a combination of exceptional physical stability, simple and reliable operation, and long resin life is required. Its high degree of crosslinking provides exceptional stability, which gives it great resistance to chemical oxidation and to mechanical, thermal, or osmotic stress. The properties of this macroporous resin have been designed for optimal kinetics. AMBERLITE™ HPR2900 Na Ion Exchange Resin is available for industrial softening or demineralization applications when the sodium-form is preferred by the user."

AMBERLITE™ HPR2900 Na

"AMBERLITE™ HPR2900 Na Ion Exchange Resin is a Uniform Particle Size, Macroporous, Strong Acid Cation Exchange Resin for Industrial Softening Applications. It is a robust, high-quality resin for use in industrial softening applications when a combination of exceptional physical stability, simple and reliable operation, and long resin life is required. Its high degree of crosslinking provides exceptional stability, which gives it great resistance to chemical oxidation and to mechanical, thermal, or osmotic stress. The properties of this macroporous resin have been designed for optimal kinetics. AMBERLITE HPR2900 Na is recommended for hot process softeners, sodium-cycle or amine-cycle condensate treatment, and other systems involving appreciable oxidative potential or high temperatures. AMBERLITE HPR2900 Na is available for demineralization applications when the sodium-form is preferred by the user."

AMBERLITE™ HPR4100 Cl

"AMBERLITE™ HPR4100 Cl Ion Exchange Resin is a Uniform Particle Size, Gel, Strong Base Anion (Type II) Exchange Resin for Industrial Demineralization Applications. It is a high-quality resin for use in industrial demineralization applications when a balance of operating performance and simple, cost-effective operation is required. The chemical properties and particle size of the resin have been optimized to help yield excellent operating capacity and rinse characteristics, reducing chemical regenerant and rinse water usage while maintaining a superior physical stability. Compared to a Type I strong base anion resin, a Type II resin will yield greater operating capacity due to more complete regeneration. It is best-suited to treat water in which silica and carbon dioxide do not exceed 30% of the total anions and the service and caustic regeneration temperature does not consistently exceed 35°C (95°F). For systems that require low silica in the effluent or that operate in higher temperatures, a Type I strong base anion resin is recommended, such as: − AMBERLITE™ HPR4200 Cl or OH Ion Exchange Resin − AMBERLITE™ HPR4800 Cl or OH Ion Exchange Resin"

AMBERLITE™ HPR4200 Cl

"AMBERLITE™ HPR4200 Cl Ion Exchange Resin is a Uniform Particle Size, Gel, Strong Base Anion Exchange Resin for Industrial Demineralization Applications. It is a high-quality resin for use in industrial demineralization applications when high performance and cost-effective operation is required. The chemical properties and particle size of the resin have been balanced to combine excellent operating capacity with low pressure drop, while reducing chemical regenerant and rinse water usage. AMBERLITE HPR4200 Cl is compatible with all system technologies; it has the flexibility to be used in lead single or layered anion bed and in mixed bed polishers, allowing users to inventory only one strong base anion resin for their demineralization needs. In mixed bed applications, the light color of this anion resin is designed to allow easy visual distinction from the dark-colored cation resin following backwash separation. AMBERLITE HPR4200 Cl is designed for use in single bed or layered bed systems when paired with AMBERLITE™ HPR9600 or AMBERLITE™ HPR9500 Ion Exchange Resins. In mixed bed applications AMBERLITE™ HPR4200 OH Ion Exchange Resin is recommended, but AMBERLITE HPR4200 Cl may be used if chloride-form is preferred by the user."

AMBERLITE™ HPR4200 OH

"AMBERLITE™ HPR4200 OH Ion Exchange Resin is a Uniform Particle Size, Gel, Strong Base Anion Exchange Resin for Industrial Demineralization Applications. It is a high-quality resin for use in industrial demineralization applications when high performance, high purity water, and cost-effective operation is required. The chemical properties and particle size of the resin have been balanced to combine excellent operating capacity with low pressure drop, while reducing chemical regenerant and rinse water usage. AMBERLITE HPR4200 OH is compatible with all system technologies; it has the flexibility to be used in lead single or layered anion bed and in mixed bed polishers, allowing users to inventory only one strong base anion resin for their demineralization needs. In mixed bed applications, the light color of this anion resin is designed to allow easy visual distinction from the dark-colored cation resin following backwash separation. AMBERLITE HPR4200 OH offers a quick start-up in a single bed or a mixed bed or when paired with weak base anion AMBERLITE™ HPR9500 Ion Exchange Resin in layered bed systems. It can also be paired with weak base anion AMBERLITE™ HPR9600 Ion Exchange Resin."

AMBERLITE™ HPR4580 Cl

"AMBERLITE™ HPR4580 Cl Ion Exchange Resin is a Acrylic, Gel, Strong Base Anion Exchange Resin for Industrial Demineralization Applications. It is a high-quality resin for use in industrial demineralization applications when high performance and cost-effective operation is required. The chemical properties and particle size of the resin have been balanced to combine a high operating capacity with low pressure drop, while reducing chemical regenerant and water usage. Acrylic anion resins have a hydrophilic structure providing unique chemical and physical properties allowing for easy release of the accumulated natural organic compounds during the regeneration step. The properties of the acrylic structure also enables it to withstand high osmotic or mechanical stress. The resin has been optimized to yield excellent operating capacity and efficient regeneration. Acrylic resins can be used effectively when temperatures do not consistently exceed 35°C (95°F). Compared to a Type I styrenic strong base anion resin, AMBERLITE HPR4580 Cl will yield greater operating capacity due to more complete regeneration and exhibits higher organic fouling resistance. AMBERLITE HPR4580 Cl is designed for use in single bed or layered bed systems. When used in a layered bed, it should be paired with AMBERLITE™ HPR9600 Ion Exchange Resin or AMBERLITE™ HPR9500 Ion Exchange Resin."

AMBERLITE™ HPR4700 Cl

"AMBERLITE™ HPR4700 Cl Ion Exchange Resin is a Uniform Particle Size, Gel, Strong Base Anion Exchange Resin for Condensate Polishing for the Power Industry and Industrial Demineralization Applications. It is specifically designed for use in industrial demineralization applications and can be used as an alternative to OH-form resin for condensate polishing beds at fossil-fired electric generating stations when a balance of operating performance, simple operation, long resin life, and cost-effective operation is required. This resin provides good bead integrity and rapid exchange kinetics due to its small average particle size, making it ideally suited to the high flowrate demands commonly encountered in power plant condensate polishing systems. The bead size uniformity and a distinguishable light color is tailored to complement the larger, denser, cationic, gel AMBERLITE™ HPR1300 H Ion Exchange Resin, offering exceptional separation in mixed beds. The color distinction between this pair of resins allows easy visual confirmation of separation following backwash. For post-RO mixed bed polishing with a strict silica specification and/or the need to maximize silica removal capacity, AMBERLITE HRP4700 Cl is an alternative to the OH-form. AMBERLITE HPR4700 Cl can also be used in single-bed demineralization applications when organic loading is not a limiting factor."

AMBERLITE™ HPR4700 OH

"AMBERLITE™ HPR4700 OH Ion Exchange Resin is a Uniform Particle Size, Gel, Strong Base Anion Exchange Resin for Condensate Polishing for the Power Industry and Industrial Demineralization Applications. It is specifically designed for use in condensate polishing beds at fossil-fired electric generating stations and industrial demineralization applications when a balance of operating performance, simple operation, long resin life, and cost-effective operation is required. A faster startup can be achieved with a strong base anion exchange resin delivered in the OH-form by providing higher water quality combined with lower TOC throw from startup, compared to the Cl-form. This resin provides good bead integrity and rapid exchange kinetics due to its small average particle size, making it ideally suited to the high flowrate demands commonly encountered in power plant condensate polishing systems. The bead size uniformity and a distinguishable light color is tailored to complement the larger, denser, cationic, gel AMBERLITE™ HPR1300 H Ion Exchange Resin, offering exceptional separation in mixed beds. The color distinction between this pair of resins allows easy visual confirmation of separation following backwash. For post-RO mixed bed polishing with a strict silica specification and/or the need to maximize silica removal capacity, AMBERLITE HRP4700 OH is an ideal choice. AMBERLITE HPR4700 OH can also be used in single-bed demineralization applications when organic loading is not a limiting factor."

AMBERLITE™ HPR4780 Cl

AMBERLITE™ Ion Exchange Resins are available in a very wide range of chemical compositions and polymer structures and have been used for decades in a high-value applications including water treatment in industrial and power generation plants.

AMBERLITE™ HPR4800 Cl

"AMBERLITE™ HPR4800 Cl Ion Exchange Resin is a Uniform Particle Size, Gel, Strong Base Anion Exchange Resin for Industrial Demineralization Applications. It is a high-quality resin for use in industrial demineralization applications when high performance and cost-effective operation is required. The chemical properties and particle size of the resin have been optimized to help yield excellent operating capacity and rinse characteristics, while reducing chemical regenerant and rinse water usage. AMBERLITE HPR4800 Cl is compatible with all system technologies; it has the flexibility to be used in the lead single anion bed and in mixed bed polishers. In mixed bed applications, the particle size is designed to enhance separability, and the light color of this anion resin allows easy visual distinction from the dark-colored cation resin following backwash separation."

AMBERLITE™ HPR4800 OH

"AMBERLITE™ HPR4800 OH Ion Exchange Resin is a Uniform Particle Size, Gel, Strong Base Anion Exchange Resin for Industrial Demineralization Applications. It is a high-quality resin for use in industrial demineralization applications when high performance, high purity water, and cost-effective operation is required. The chemical properties and particle size of the resin have been optimized to help yield excellent operating capacity and rinse characteristics, while reducing chemical regenerant and rinse water usage. AMBERLITE HPR4800 OH is compatible with all system technologies; it has the flexibility to be used in the lead single anion bed and in mixed bed polishers. The OH-form offers a quick start-up in single beds. In mixed bed applications, the particle size is designed to enhance separability, and the light color of this anion resin allows easy visual distinction from the dark-colored cation resin following backwash separation."

AMBERLITE™ HPR4811 Cl

"AMBERLITE™ HPR4811 Cl Ion Exchange Resin is a Uniform Particle Size, Gel, Strong Base Anion Exchange Resin for Industrial Demineralization Applications. It is a high-quality resin for use in industrial demineralization applications when high performance and cost-effective operation is required. The chemical properties and particle size of the resin have been optimized to help yield excellent operating capacity and rinse characteristics, while reducing chemical regenerant and rinse water usage. AMBERLITE HPR4811 Cl provides high capacity with excellent kinetics and very good resistance to organic fouling. It also has excellent resistance to osmotic shock and good physical and chemical stability. Its unique resistance to organic fouling enables this resin to be used in Cl-form as an organic scavenger with great success in a single bed unit."

AMBERLITE™ HPR550 Cl

"AMBERLITE™ HPR550 Cl Ion Exchange Resin is a Uniform Particle Size, Gel, Strong Base Anion Exchange Resin for Condensate Polishing and Mixed Bed Demineralization Applications for the Power Industry. It is a premium-quality, high-capacity resin specifically designed for use in high purity industrial demineralization applications and condensate polishing beds at power stations when the chloride-form is preferred by the user. This resin provides exceptional bead integrity and rapid exchange kinetics due to its small average particle size, making it ideally suited to the high flowrate demands commonly encountered in power plant condensate polishing systems. The bead size uniformity and a distinguishable light color is tailored to complement the larger, denser, cationic, gel AMBERLITE™ HPR650 H Ion Exchange Resin. The color distinction between this pair of resins allows easy visual confirmation of separation following backwash. For post-RO mixed bed polishing with a strict silica specification and/or the need to maximize silica removal capacity, AMBERLITE HPR550 Cl is an alternative to the OH-form."

AMBERLITE™ HPR550 OH

"AMBERLITE™ HPR550 OH Ion Exchange Resin is a Uniform Particle Size, Gel, Strong Base Anion Exchange Resin for Condensate Polishing and Mixed Bed Demineralization Applications for the Power Industry It is a premium-quality, high-capacity resin designed specifically for use in nuclear condensate polishing mixed beds when highest resin purity and water quality are required. This resin provides exceptional bead integrity and rapid exchange kinetics due to its small average particle size, making it ideally suited to the high flowrate demands commonly encountered in power plant condensate polishing systems. The bead size uniformity and a distinguishable light color is tailored to complement the larger, denser, cationic, gel AMBERLITE™ HPR650 H Ion Exchange Resin. The color distinction between this pair of resins allows easy visual confirmation of separation following backwash. Together, these resins offer exceptional separation in mixed beds, which combined with excellent water quality and resin purity, has made them known throughout the industry as a premium mixed bed pairing."

AMBERLITE™ HPR650 H

"AMBERLITE™ HPR650 H Ion Exchange Resin is a Uniform Particle Size, Gel, Strong Acid Cation Exchange Resin for Condensate Polishing and Mixed Bed Demineralization Applications for the Power Industry. It is a premium-quality, high-capacity resin with uniform particle size designed specifically for use in nuclear condensate polishing mixed beds when highest resin purity and water quality are required. This resin provides outstanding mechanical strength and very good oxidative stability. It is ideally suited to the high flowrate demands of condensate polishing applications. The bead size uniformity and dark color is tailored to complement the smaller, less dense, anionic, gel AMBERLITE™ HPR550 OH Ion Exchange Resin. The color distinction between this pair of resins allows easy visual confirmation of separation following backwash. Together, these resins offer exceptional separation in mixed beds, which combined with excellent water quality and resin purity, has made them known throughout the industry as a premium mixed bed pairing. In systems where exceptional resistance to surface fouling is required, macroporous AMBERLITE™ HPR9000 OH Ion Exchange Resin is the recommended pairing."

AMBERLITE™ HPR6700

"AMBERLITE™ HPR6700 Ion Exchange Resin is a Acrylic, Gel, Weak Base Anion Exchange Resin for Industrial Demineralization Applications. It is a high-quality resin for use in industrial demineralization applications when high performance and cost-effective operation is required. The chemical properties and particle size of the resin have been balanced to combine a high operating capacity with low pressure drop, while reducing chemical regenerant and water usage. Weak base anion resins are well-suited for use with strong base anion resins to improve overall efficiency and throughput of a demineralization system. Acrylic weak base anion resins effectively remove mineral acids as well as carbon dioxide and organics, reducing the ionic load on the strong base anion resin and also protecting it from organic fouling. The weak base anion resin increases a system’s overall capacity to remove organics. AMBERLITE HPR6700 has exceptional physical stability and organic fouling resistance. The hydrophilic acrylic structure provides unique chemical and physical properties enabling the resin to be operated under continuous high load of natural organic compounds when temperatures do not consistently exceed 35°C (95°F)."

AMBERLITE™ HPR7000

"AMBERLITE™ HPR7000 Ion Exchange Resin is an Acrylic, Gel, Weak Base Anion Exchange Resin for Industrial Demineralization Applications. It is a high-quality resin for use in industrial demineralization applications when high performance and cost-effective operation is required. This resin offers an improved rinse profile compared to other acrylic weak base anion resins. The chemical properties and particle size of the resin have been balanced to combine good operating capacity with low pressure drop, while reducing chemical regenerant and water usage. Weak base anion resins are well-suited for use with strong base anion resins to improve overall efficiency and throughput of a demineralization system. Acrylic weak base anion resins effectively remove mineral acids as well as carbon dioxide and organics, reducing the ionic load on the strong base anion resin and also protecting it from organic fouling. The weak base anion resin increases a system’s overall capacity to remove organics. AMBERLITE HPR7000 has exceptional physical stability and organic fouling resistance. The hydrophilic acrylic structure provides unique chemical and physical properties enabling the resin to be operated under continuous high load of natural organic compounds when temperatures do not consistently exceed 35°C (95°F)."

AMBERLITE™ HPR8300 H

"AMBERLITE™ HPR8300 H Ion Exchange Resin is an Acrylic, Macroporous, Weak Acid Cation Exchange Resin for Industrial Demineralization, Softening, and Dealkalization Applications. It is a high-quality resin for use in industrial demineralization and softening applications when high performance and cost-effective operation is required. The exceptionally high total capacity and the particle size of the resin help yield excellent operating capacity and rinse characteristics, while reducing chemical regenerant and water usage. When AMBERLITE HPR8300 H is operated in the Na-form, it will remove total hardness even in high salinity waters. When operated in the H-form, it will remove only the hardness associated with alkalinity—a weak acid cation resin operated in the H-form is well-suited for use with strong acid cation resins to improve overall efficiency and throughput of a demineralization system by reducing the hardness exposure on the strong acid cation resin. In Na-form softening operation, AMBERLITE HPR8300 H enables improved operating capacity for total hardness versus other weak acid cation resins currently available, which allows more competitive vessel design or extended production capacity when installed in existing systems. In dealkalization, AMBERLITE HPR8300 H has demonstrated improved operating capacity versus other weak acid cation resins currently available, which allows users to simultaneously minimize operating costs and environmental impacts while also preserving precious raw water resources under the right conditions. In reverse osmosis pretreatment, AMBERLITE HPR8300 H can protect the membrane from hardness scaling, which can improve system recovery and operational reliability and can eliminate the use of chemicals such as antiscalants or acids for RO feedwater pH control. The resin’s ability to soften high-salinity feedwaters enables the RO to reliably operate under extremely variable and/or harsh conditions, such as with wastewater reuse or minimal liquid discharge. AMBERLITE HPR8300 H is compatible with all system designs and bed configurations. In layered beds, AMBERLITE HPR8300 H should be paired with gel AMBERLITE™ HPR1300 H Ion Exchange Resin for the highest operating capacity and for more challenging circumstances, AMBERLITE™ HPR2800 H Ion Exchange Resin would be the preferred option."

AMBERLITE™ HPR8400 H

" AMBERLITE™ HPR8400 H Ion Exchange Resin is an Acrylic, Macroporous, Weak Acid Cation Exchange Resin for Industrial Demineralization, Softening, and Dealkalization Applications. It is a high-quality resin for use in industrial demineralization and softening applications when high performance and cost-effective operation is required. The exceptionally high total capacity and the larger particle size of the resin help yield excellent operating capacity with low pressure drop, while reducing chemical regenerant and water usage. When AMBERLITE HPR8400 H is operated in the Na form, it will remove total hardness even in high salinity waters. When operated in the H form, it will remove only the hardness associated with alkalinity—a weak acid cation resin operated in the H form is well-suited for use with strong acid cation resins to improve overall efficiency and throughput of a demineralization system by reducing the hardness exposure on the strong acid cation resin. In Na-form softening operation, AMBERLITE HPR8400 H enables improved operating capacity for total hardness versus other weak acid cation resins currently available, which allows more competitive vessel design or extended production capacity when installed in existing systems. In dealkalization, AMBERLITE HPR8400 H has demonstrated improved operating capacity versus other weak acid cation resins currently available, which allows users to simultaneously minimize operating costs and environmental impacts while also preserving precious raw water resources under the right conditions. In reverse osmosis pretreatment, AMBERLITE HPR8400 H can protect the membrane from hardness scaling, which can improve system recovery and operational reliability and can eliminate the use of chemicals such as antiscalants or acids for RO feedwater pH control. The resin’s ability to soften high-salinity feedwaters enables the RO to reliably operate under extremely variable and/or harsh conditions, such as with wastewater reuse or minimal liquid discharge. "

AMBERLITE™ HPR900 OH

"AMBERLITE™ HPR900 OH Ion Exchange Resin is a Macroporous, Strong Base Anion Exchange Resin for Condensate Polishing for the Power Industry and Industrial Demineralization Applications. It is specifically designed for use in condensate polishing beds at fossil-fired electric generating stations and industrial demineralization applications when a balance of operating performance, simple operation, long resin life, and cost-effective operation is required. The macroporous structure of AMBERLITE HPR900 OH provides resistance to surface fouling as well as physical, osmotic, and oxidative stresses, which allows increased resin lifetime in operation. The resin can operate reliably under the high flowrate and pressure drop conditions that are typically inherent in condensate polishers. This resin is designed to be used in combination with AMBERLITE™ HPR252 H Ion Exchange Resin and AMBERLITE™ 600i Inert Resin in TRIOBED™ Condensate Polishers, providing an optimized balance of stability, operating capacity, low pressure drop, and regeneration efficiency. When high water quality and long runtime are needed, AMBERLITE™ HPR1300 H Ion Exchange Resin is a trusted choice."

AMBERLITE™ HPR900 SO4

"AMBERLITE™ HPR900 SO4 Ion Exchange Resin is a Macroporous, Strong Base Anion Exchange Resin for Condensate Polishing for the Power Industry and Industrial Demineralization Applications. It is specifically designed for use in condensate polishing beds at fossil-fired electric generating stations and industrial demineralization applications when a balance of operating performance, simple operation, long resin life, and cost-effective operation is required. The macroporous structure of AMBERLITE HPR900 SO4 provides resistance to surface fouling as well as physical, osmotic, and oxidative stresses, which allows increased resin lifetime in operation. The resin can operate reliably under the high flowrate and pressure drop conditions that are typically used in condensate polishers. This resin is designed to be used in combination with AMBERLITE™ HPR252 H Ion Exchange Resin and AMBERLITE™ 600i Inert Resin in TRIOBED™ Condensate Polishers, providing an optimized balance of stability, operating capacity, low pressure drop, and regeneration efficiency. When high water quality and long runtime are needed, AMBERLITE™ HPR1300 H Ion Exchange Resin is a trusted choice. When compliance with the China National Standard specifications for fossil power condensate polishing applications, including the China Strong Osmotic Ball Mill test, is important, AMBERLITE™ HPR2800 H Ion Exchange Resin is the recommended cation pair since both resins are compliant with the standard."

AMBERLITE™ HPR9000 OH

"AMBERLITE™ HPR9000 OH Ion Exchange Resin is a Uniform Particle Size, Macroporous, Strong Base Anion Exchange Resin for Condensate Polishing and Mixed Bed Demineralization Applications for the Power Industry. It is a premium-quality resin designed specifically for use in nuclear condensate polishing mixed beds and other regenerable mixed beds when highest resin purity and water quality are required. The special dimensioning and consistency of the macroporous structure of AMBERLITE HPR9000 OH provides exceptional resistance to surface fouling as well as physical, osmotic, and oxidative stresses, which allows increased resin lifetime in operation. AMBERLITE HPR9000 OH can operate reliably under the high flowrate and pressure drop conditions that are typically used in condensate polishers, and the particle size, uniformity, and white cream color resin allow for excellent, easy, and visible backwash separation when used in mixed beds. AMBERLITE HPR9000 OH can be perfectly paired with several cation exchange resins and the selection depends on plant operation: • When highest water quality and longest runtime are needed, AMBERLITE™ HPR1600 H Ion Exchange Resin is the best choice due to its exceptional chemical stability and high capacity. • For a cation resin that balances capacity and regenerability, AMBERLITE™ HPR650 H Ion Exchange Resin is a trusted choice. • For systems running with ETA chemistry, AMBERLITE™ HPR1400 H Ion Exchange Resin should be the choice to maximize the protection of the anion resin kinetics. • For longest runtime in amine cycle operation or in the most oxidative environments, AMBERLITE™ HPR2000 H Ion Exchange Resin is the best choice due to its high sodium selectivity and excellent oxidative stability.."

AMBERLITE™ HPR9000 SO4

"AMBERLITE™ HPR9000 SO4 Ion Exchange Resin is a Uniform Particle Size, Macroporous, Strong Base Anion Exchange Resin for Condensate Polishing and Industrial Demineralization Applications for the Power Industry. It is specifically designed for use in regenerable mixed beds when a balance of operating performance, simple operation, long resin life, and cost-effective operation is required. The special dimensioning and consistency of the macroporous structure of AMBERLITE HPR9000 SO4 provides exceptional resistance to surface fouling as well as physical, osmotic, and oxidative stresses, which allows increased resin lifetime in operation. AMBERLITE HPR9000 SO4 can operate reliably under the high flowrate and pressure drop conditions that are typically used in condensate polishers, and the particle size, uniformity, and white cream color resin allow for excellent, easy, and visible backwash separation when used in mixed beds. AMBERLITE HPR9000 SO4 can be perfectly paired with several cation exchange resins and the selection depends on your plant’s operation: • When highest water quality and longest runtime are needed, AMBERLITE™ HPR1600 H Ion Exchange Resin is the best choice due to its exceptional chemical stability and high capacity. • For a cation resin that balances capacity and regenerability, AMBERLITE™ HPR650 H Ion Exchange Resin is a trusted choice. • In the most oxidative environments, AMBERLITE™ HPR2000 H Ion Exchange Resin is the best choice due to its excellent oxidative stability. When compliance with the China National Standard specifications for fossil power condensate polishing applications, including the China Strong Osmotic Ball Mill test, is important, AMBERLITE™ HPR2800 H Ion Exchange Resin is the recommended cation pair since both resins are compliant with the standard."

AMBERLITE™ HPR9100 Cl

"AMBERLITE™ HPR9100 Cl Ion Exchange Resin is a Uniform Particle Size, Macroporous, Strong Base Anion (Type II) Exchange Resin for Industrial Demineralization Applications. It is a high-quality resin for use in industrial demineralization applications when a balance of operating performance and simple, cost-effective operation is required. The chemical properties and particle size of the resin have been optimized to help yield excellent operating capacity and rinse characteristics, reducing chemical regenerant and rinse water usage while maintaining a superior physical stability. The macroporous structure of AMBERLITE HPR9100 Cl provides excellent resistance to organic fouling and physical stresses. When operated under challenging conditions, it allows increased resin lifetime in operation compared to a gel Type II resin. Compared to a Type I strong base anion resin, a Type II resin will yield greater operating capacity due to more complete regeneration. It is best-suited to treat water in which silica and carbon dioxide do not exceed 30% of the total anions and the service and caustic regeneration temperature does not consistently exceed 35°C (95°F). For systems that require low silica in the effluent or that operate in higher temperatures, a Type I strong base anion resin is recommended, such as: − AMBERLITE™ HPR9200 Cl Ion Exchange Resin − AMBERLITE™ HPR9000 OH or SO4 Ion Exchange Resin"

AMBERLITE™ HPR9200 Cl

"AMBERLITE™ HPR9200 Cl Ion Exchange Resin is a Uniform Particle Size, Macroporous, Strong Base Anion Exchange Resin for Industrial Demineralization Applications. It is a robust, high-quality resin for use in industrial demineralization applications when a combination of exceptional physical stability, simple and reliable operation, and long resin life is required. AMBERLITE HPR9200 Cl has exceptional physical stability, excellent resistance to osmotic shock, and very good organic fouling resistance. It is well-suited for use in demineralization of high organic waters. AMBERLITE HPR9200 Cl is compatible with all system technologies; it has the flexibility to be used in lead single or in mixed bed polishers. In mixed bed applications, the light color of this anion resin is designed to allow easy visual distinction from the dark-colored cation resin following backwash separation."

AMBERLITE™ HPR9500

"AMBERLITE™ HPR9500 Ion Exchange Resin is a Uniform Particle Size, Macroporous, Weak Base Anion Exchange Resin for Industrial Demineralization Applications. It is a high-quality resin for use in industrial demineralization applications when high performance and cost-effective operation is required. The chemical properties and particle size of the resin have been optimized to help yield excellent operating capacity and rinse characteristics, while reducing chemical regenerant and water usage. Weak base anion resins are well-suited for use with strong base anion resins to improve overall efficiency and throughput of a demineralization system. It effectively removes mineral acids and organics, reducing the ionic load on the strong base anion resin and also protecting it from organic fouling. The weak base anion resin increases a system’s overall capacity to remove organics. AMBERLITE HPR9500 displays excellent thermal stability. It has high kinetics, which yields good operating capacity even in low-temperature operations. The macroporous structure allows for easy release of natural organic molecules providing good organic fouling resistance. AMBERLITE HPR9500 offers a quick start-up in a single bed or when paired with an OH-form strong base anion in layered bed systems."

AMBERLITE™ HPR9600

"AMBERLITE™ HPR9600 Ion Exchange Resin is a Uniform Particle Size, Macroporous, Weak Base Anion Exchange Resin for Industrial Demineralization Applications. It is a high-quality resin for use in industrial demineralization applications when high performance and cost-effective operation is required. The chemical properties and particle size of the resin have been optimized to help yield excellent operating capacity and rinse characteristics, while reducing chemical regenerant and water usage. Weak base anion resins are well-suited for use with strong base anion resins to improve overall efficiency and throughput of a demineralization system. It effectively removes mineral acids and organics, reducing the ionic load on the strong base anion resin and also protecting it from organic fouling. The weak base anion resin increases a system’s overall capacity to remove organics. AMBERLITE HPR9600 combines excellent physical and thermal stability with high kinetics, yielding good operating capacity even in low-temperature operations. The macroporous structure allows for easy release of natural organic molecules providing excellent organic fouling resistance. AMBERLITE HPR9600 is designed for use in single bed or layered bed systems when paired with AMBERLITE™ HPR4200 Cl or OH Ion Exchange Resin."

AMBERLITE™ HPR9700

"AMBERLITE™ HPR9700 Ion Exchange Resin is a Macroporous, Weak Base Anion Exchange Resin for Industrial Demineralization Applications.It is a high-quality resin for use in industrial demineralization applications when high performance and cost-effective operation is required. The chemical properties and particle size of the resin have been balanced to combine a good operating capacity with low pressure drop, while reducing chemical regenerant and water usage. Weak base anion resins are well-suited for use with strong base anion resins to improve overall efficiency and throughput of a demineralization system. It effectively removes mineral acids and organics, reducing the ionic load on the strong base anion resin and also protecting it from organic fouling. The weak base anion resin increases a system’s overall capacity to remove organics. AMBERLITE HPR9700 has excellent physical and thermal stability. The macroporous structure allows for easy release of natural organic molecules providing excellent organic fouling resistance."

AMBERLITE™ IRA402 Cl

AMBERLITE™ IRA402 Cl Ion Exchange Resin is a Gaussian, Gel, Strong Base Anion Exchange Resin for Industrial Demineralization Applications. It is a general-purpose demineralization resin with a long-established track record of reliable performance in the industry. This industry-staple resin is designed to provide excellent balance of properties for capacity, strength, silica selectivity, and a long lifetime for co-flow regenerated systems in variety of industrial water treatment applications.

AMBERLITE™ IRA410 Cl

"AMBERLITE™ IRA410 Cl Ion Exchange Resin is a Gaussian, Gel, Strong Base Anion (Type II) Exchange Resin for Industrial Demineralization Applications. It is a general-purpose demineralization resin with a long-established track record of reliable performance in co-flow regenerated industrial water treatment systems. Compared to a Type I strong base anion resin, a Type II resin will yield greater operating capacity due to more complete regeneration. It is best-suited to treat water in which silica and carbon dioxide do not exceed 30% of the total anions and the service and caustic regeneration temperature does not consistently exceed 35°C (95°F). For systems that require low silica in the effluent or that operate at higher temperatures, a Type I strong base anion resin is recommended, such as AMBERLITE™ IRA402 Cl Ion Exchange Resin."

AMBERLITE™ IRA458 Cl

"AMBERLITE™ IRA458 Cl Ion Exchange Resin is a Gaussian, Acrylic, Gel, Strong Base Anion Exchange Resin for Industrial Demineralization Applications. It is a general-purpose demineralization resin with a long-established track record of reliable performance in the industry. It offers a good balance of high capacity and high strength for co-flow regenerated systems in industrial water treatment. Acrylic anion resins have a hydrophilic structure providing unique chemical and physical properties allowing for easy release of the accumulated natural organic compounds during the regeneration step. The properties of the acrylic structure also enable it to withstand high osmotic or mechanical stress. The resin has been optimized to yield excellent operating capacity and efficient regeneration. Acrylic resins can be used effectively when temperatures do not consistently exceed 35°C (95°F). Compared to a Type I styrenic strong base anion resin, AMBERLITE IRA458 Cl will yield greater operating capacity due to more complete regeneration and exhibits higher organic fouling resistance."

AMBERLITE™ IRA67

"AMBERLITE™ IRA67 Ion Exchange Resin is a Gaussian, Acrylic, Gel, Weak Base Anion Exchange Resin for Industrial Demineralization Applications. It is a general-purpose demineralization resin with a long-established track record of reliable performance in the industry. This resin offers a good balance of high capacity, high stability and organic fouling resistance for co-flow regenerated systems in industrial water treatment. Weak base anion resins are well-suited for use with strong base anion resins to improve overall efficiency and throughput of a demineralization system. Acrylic weak base anion resins effectively remove mineral acids as well as carbon dioxide and organics, reducing the ionic load on the strong base anion resin and also protecting it from organic fouling. The weak base anion resin increases a system’s overall capacity to remove organics. AMBERLITE IRA67 has exceptional physical stability and organic fouling resistance. The hydrophilic acrylic structure provides unique chemical and physical properties enabling the resin to be operated under continuous high load of natural organic compounds when temperatures do not consistently exceed 35°C (95°F)."

AMBERLITE™ IRA900 Cl

"AMBERLITE™ IRA900 Cl Ion Exchange Resin is a Gaussian, Macroporous, Strong Base Anion Exchange Resin for Industrial Demineralization Applications. It is a general-purpose demineralization resin with a long-established track record of reliable performance in the industry. This industry-staple resin is designed to provide a long lifetime for co-flow regenerated systems in variety of industrial water treatment applications. The macroporous structure of AMBERLITE IRA900 Cl provides excellent resistance to organic fouling and physical stresses. When operated under challenging conditions, it allows increased resin lifetime in operation compared to a gel Type I resin."

AMBERLITE™ IRA910 Cl

"AMBERLITE™ IRA910 Cl Ion Exchange Resin is a Macroporous, Strong Base Anion (Type II) Exchange Resin for Industrial Demineralization Applications. It is a general-purpose demineralization resin with a long-established track record of reliable performance in co-flow regenerated industrial water treatment systems. The macroporous structure of AMBERLITE IRA910 Cl provides excellent resistance to organic fouling and physical stresses. When operated under challenging conditions, it allows increased resin lifetime in operation compared to a gel Type II resin. Compared to a Type I strong base anion resin, a Type II resin will yield greater operating capacity due to more complete regeneration. It is best-suited to treat water in which silica and carbon dioxide do not exceed 30% of the total anions and the service and caustic regeneration temperature does not consistently exceed 35°C (95°F). For systems that require low silica in the effluent or that operate at higher temperatures, a Type I strong base anion resin is recommended, such as AMBERLITE™ IRA900 Cl Ion Exchange Resin."

AMBERLITE™ IRA96

"AMBERLITE™ IRA96 Ion Exchange Resin is a Gaussian, Macroporous, Weak Base Anion Exchange Resin for Industrial Demineralization Applications. It is a general-purpose demineralization resin with a long-established track record of reliable performance in the industry. This durable resin offers a good balance of capacity and strength resulting in long lifetime for co-flow regenerated systems in industrial water treatment. Weak base anion resins are well-suited for use with strong base anion resins to improve overall efficiency and throughput of a demineralization system. It effectively removes mineral acids and organics, reducing the ionic load on the strong base anion resin and also protecting it from organic fouling. The weak base anion resin increases a system’s overall capacity to remove organics. AMBERLITE IRA96 has excellent physical and thermal stability. The macroporous structure allows for easy release of natural organic molecules providing high organic fouling resistance."

AMBERLITE™ IRC120 H

"AMBERLITE™ IRC120 H Ion Exchange Resin is a Gaussian, Gel, Strong Acid Cation Exchange Resin for Industrial Softening Applications. It is a general-purpose demineralization resin with a long-established track record of reliable performance in the industry. This durable resin offers a good balance of capacity and strength resulting in long lifetime for co-flow regenerated systems in industrial water treatment. "

AMBERLITE™ IRC120 Na

"AMBERLITE™ IRC120 Na Ion Exchange Resin is a Gaussian, Gel, Strong Acid Cation Exchange Resin for Industrial Softening Applications. It is a general-purpose softening resin with a long-established track record of reliable performance in the industry. This durable resin offers a good balance of capacity and strength resulting in long lifetime for co-flow regenerated systems in industrial water treatment. AMBERLITE IRC120 Na is available for demineralization applications when the sodium-form is preferred by the user."

AMBERLITE™ IRC200 Na

"AMBERLITE™ IRC200 Na Ion Exchange Resin is a Gaussian, Macroporous, Strong Acid Cation Exchange Resin for Industrial Softening Applications.It is a robust softening resin with a long-established track record of reliable performance in the industry. Its high degree of crosslinking provides exceptional stability, which gives it great resistance to chemical oxidation and to mechanical, thermal, or osmotic stress. AMBERLITE IRC200 Na is recommended for hot process softeners, sodium-cycle or amine-cycle condensate treatment, and other systems involving appreciable oxidative potential or high temperatures."

AMBERLITE™ IRC83 H

"AMBERLITE™ IRC83 H Ion Exchange Resin is a Gaussian, Acrylic, Macroporous, Weak Acid Cation Exchange Resin for Industrial Demineralization, Softening, and Dealkalization Applications. It is a general-purpose dealkalization and softening resin with a long-established track record of reliable performance in the industry. This industry-staple resin is designed for co-flow regenerated systems in variety of industrial water treatment applications. When AMBERLITE IRC83 H is operated in the Na-form, it will remove total hardness even in high salinity waters such as those in oilfield SAGD systems. When operated in the H-form, it will remove only the hardness associated with alkalinity—a weak acid cation resin operated in the H-form is well-suited for use with strong acid cation resins to improve overall efficiency and throughput of a demineralization system by reducing the hardness exposure on the strong acid cation resin. In Na-form softening operation, AMBERLITE IRC83 H enables improved operating capacity for total hardness versus other weak acid cation resins currently available, which allows more competitive vessel design or extended production capacity when installed in existing systems. In dealkalization, AMBERLITE IRC83 H has demonstrated improved operating capacity versus other weak acid cation resins currently available, which allows users to simultaneously minimize operating costs and environmental impacts while also preserving precious raw water resources under the right conditions. In reverse osmosis pretreatment, AMBERLITE IRC83 H can protect the membrane from hardness scaling, which can improve system recovery and operational reliability and can eliminate the use of chemicals such as antiscalants or acids for RO feedwater pH control. The resin’s ability to soften high-salinity feedwaters enables the RO to reliably operate under extremely variable and/or harsh conditions, such as with wastewater reuse or minimal liquid discharge."

AMBERLITE™ IRN150 H/OH

"AMBERLITE™ IRN150 H/OH Ion Exchange Resin is a Mixture of Nuclear-grade, Uniform Particle Size, Gel, Strong Acid Cation and Strong Base Anion Exchange Resins for Water Treatment Applications in the Nuclear Power Industry. It is designed specifically for use in nuclear loops where highest resin purity and stability are required, and where the ""as supplied"" resin must have a minimum of ionic and non-ionic contamination. These high standards of resin purity enable plants to achieve reliable and safe production whilst reducing the need for equipment maintenance and minimizing the impact of unscheduled outages. AMBERLITE IRN150 H/OH is a stoichiometric equivalent mixture of AMBERLITE™ IRN77 H Ion Exchange Resin and AMBERLITE™ IRN78 OH Ion Exchange Resin on a 1:1 equivalent basis. The resin combines the properties of high capacity and excellent physical strength. Pre-mixed resin also allows for faster change-out and initial rinse-up prior to service, which minimizes start-up time and rinse wastewater volume."

AMBERLITE™ IRN160 H/OH

"AMBERLITE™ IRN160 H/OH Ion Exchange Resin is a Mixture of Nuclear-grade, Uniform Particle Size, Gel, Strong Acid Cation and Strong Base Anion Exchange Resins for Water Treatment Applications in the Nuclear Power Industry. It is designed specifically for use in nuclear loops where highest resin purity and stability are required, and where the ""as supplied"" resin must have a minimum of ionic and non-ionic contamination. These high standards of resin purity enable plants to achieve reliable and safe production whilst reducing the need for equipment maintenance and minimizing the impact of unscheduled outages. AMBERLITE IRN160 H/OH is a stoichiometric equivalent mixture of AMBERLITE™ IRN97 H Ion Exchange Resin and AMBERLITE™ IRN78 OH Ion Exchange Resin on a 1:1 equivalent basis. It is designed to minimize separation of anion and cation during installation and transfer due to the smaller cation resin particle size. The less-separating properties of this resin make it easily transferable from one location to another, helping to eliminate the formation of a cation layer at the bottom of the service vessel. As a pre-mixed resin, it also allows for faster change-out and initial rinse-up prior to service, which minimizes start-up time and rinse wastewater volume. The smaller cation particle size also provides faster kinetics and higher exchange capacity leading to a reduction of rad waste compared to standard mixed beds. The higher capacity, 10% DVB cation resin also provides excellent chemical stability and resistance to bead fracture from attrition."

AMBERLITE™ IRN164 Li/OH

"AMBERLITE™ IRN164 Li/OH Ion Exchange Resin is a Mixture of Nuclear-grade, Uniform Particle Size, Gel, Strong Acid Cation and Strong Base Anion Exchange Resins for Water Treatment Applications in the Nuclear Power Industry. It is designed specifically for use in nuclear loops where highest resin purity and stability are required, and where the ""as supplied"" resin must have a minimum of ionic and non-ionic contamination. These high standards of resin purity enable plants to achieve reliable and safe production whilst reducing the need for equipment maintenance and minimizing the impact of unscheduled outages. AMBERLITE IRN164 Li/OH is composed of AMBERLITE™ IRN97 H Ion Exchange Resin converted to the natural Li form and AMBERLITE™ IRN78 OH Ion Exchange Resin, supplied together on a 1:1 equivalent basis. AMBERLITE IRN164 Li/OH is designed for use in CANDU reactor heat transport systems and closed-loop cooling systems. It is intended for use in non-regenerable systems which demand high effluent purity and long resin life. The properties of this mixed bed resin make it less separable helping to eliminate the formation of a cation layer at the bottom of the service vessel when transferring from one location to another. In addition, the mixed bed is specially processed to have a good slurrying capability. As a pre-mixed resin, it allows for faster change-out and initial rinse-up prior to service, which minimizes start-up time and rinse wastewater volume."

AMBERLITE™ IRN170 H/OH

"AMBERLITE™ IRN170 H/OH Ion Exchange Resin is a Mixture of Nuclear-grade, Uniform Particle Size, Gel, Strong Acid Cation and Strong Base Anion Exchange Resins for Water Treatment Applications in the Nuclear Power Industry. It is designed specifically for use in nuclear loops where highest resin purity and stability are required, and where the ""as supplied"" resin must have a minimum of ionic and non-ionic contamination. These high standards of resin purity enable plants to achieve reliable and safe production whilst reducing the need for equipment maintenance and minimizing the impact of unscheduled outages. AMBERLITE IRN170 H/OH is designed for the ultimate performance in