Uniformity Coefficient | 1.2 |
---|---|
Water Retention Capacity | 37 - 43% |
Total Exchange Capacity (eq/L) | 2.5 |
Resin Type | Mixed Bed |
Particle Diameter (um) | 525 ± 50 |
Ion Form | H/OH |
Matrix (Styrenic/Acrylic) | Styrenic |
Matrix (Gel/Macro) | Gel |
Cation Water Retention Capacity (eq/L) | 37 - 43% |
Cation Particle Diameter | 525 ± 50 um |
Anion Water Retention Capacity | 54 - 60% |
Application | Condensate Polishing, Nuclear Fuel Pool Purification, Nuclear Power Generation, Rad Water Treatment |
Anion Total Exchange Capacity | 1.2 |
Anion Particle Diameter | 630 ± 50 um |
AmberLite™ IRN170 H-OH
In stock
Only %1 left
SKU
DWNA-AMBERLITEIRN170HOH
$4,163.00
$99,999.99
- Amberlite™ IRN170 H/OH Ion Exchange Resin 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 nonregenerable nuclear applications, and it is the resin of choice for applications which demand the highest effluent purity, highest operating capacity, and longest resin life. Amberlite™ IRN170 H/OH is a stoichiometric equivalent mixture of Amberlite™ IRN99 H Ion Exchange Resin and Amberlite™ IRN78 OH Ion Exchange Resins on a 1:1 equivalent basis. Both the cation and anion components are recognized as the premier resins in the nuclear power industry. The cation component, Amberlite™ IRN99 H, has exceptionally high capacity and outstanding physical and oxidative stability and the anion component, Amberlite™ IRN78 OH, has exceptional total exchange capacity and purity. Amberlite™ IRN170 H/OH was originally developed for use in BWR condensate polishers to help achieve the lowest possible sulfate levels in reactor water. This is accomplished through a combination of the extraordinary oxidative stability of the cation resin, and a particle size balance between the cation and anion resins, which minimizes the formation of a re-separated cation resin layer on the bottom of the service vessels. 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