DuPont Amberlite HPR9100 CL ion exchange resin is a high-quality resin used in industrial desalination applications that require a balance of operational performance and simple, cost-effective operation. The chemistry and particle size of the resin are optimized to help produce excellent operating capacity and flushing characteristics, reducing the use of chemical regenerants and rinse water while maintaining superior physical stability.
The macroporous structure of Amberlite HPR9100 CL provides excellent resistance to organic contamination and physical stress. When operating under harsh conditions, it can extend the life of the resin in operation compared to gel type II resins.
Compared to Type I strong alkaline anionic resins, Type II resins will produce a larger operating capacity due to more complete regeneration. It is best suited for treating water where silicon and carbon dioxide do not exceed 30% of the total anions, and the service and alkaline regeneration temperature does not consistently exceed 35 °C (95 °F).
For systems that need to contain low silica in emissions or operate at higher temperatures, a Type I strong alkaline anion resin is recommended, such as:
Amberlite HPR9200 CL ion exchange resin.
Amberlite HPR9000 OH or SO4 ion exchange resinDue to its excellent properties, DuPont Amberlite HPR9100 CL ion exchange resin has become an ideal choice for many industrial desalination applications. Not only does it provide excellent operational performance, but it also simplifies operation and reduces economic costs. The chemical and particulate properties of this resin have been carefully engineered to ensure excellent operating capacity and flushing characteristics. Not only does this reduce the use of chemical regenerants and rinse water, but it also maintains the physical stability of the resin, allowing it to operate in a wide range of demanding conditions.
The macroporous structure of Amberlite HPR9100 CL gives it excellent resistance to organic contamination and physical stress. This allows the resin to maintain a longer life in operation, which has significant advantages over gel type II resins. In addition, Type II resins will provide greater operating capacity due to more complete regeneration compared to Type I strong alkaline anionic resins.
Despite the many advantages of Amberlite HPR9100 CL ion exchange resin, it is important to note that its scope of application. It is best suited for situations where the amount of silicon and carbon dioxide in the water does not exceed 30% of the total anion. In addition, the serving and alkaline regeneration temperature should be maintained at a level not exceeding 35 °C (95 °F). For systems that require low silicone in emissions or operate at higher temperatures, it is recommended to use different types of ion exchange resins, such as Type I strong alkaline anion resins such as Amberlite HPR9200 CL, Amberlite HPR9000 OH, or SO4 ion exchange resins.
In summary, DuPont Amberlite HPR9100 CL ion exchange resin is a high-quality, high-performance resin suitable for a variety of industrial desalination applications. Its excellent running performance, simplified operation and excellent economics make it an ideal choice for users. By carefully selecting and applying the right ion exchange resins, you can ensure that your system operates efficiently and reliably, meeting stringent operating conditions and emission standards.