AMBERLITE™ Ion Exchange Resins

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™ 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.

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Used In:

  • Demineralization, ideally when treating water with high organic fouling potential and high percentage of mineral acidity (FMA)
  • Partial demineralization when weak acid removal is not required
  • Compatible with all system technologies and bed configurarations: co-current, counter-current/hold-down, layered beds, packed beds

Advantages:

  •  Uniform particle size
  •  High performance resin with proven track record
  •  Excellent operating capacity and rinse characteristics
  •  Excellent thermal stability
  •  High kinetics yielding good operating capacity even in low temperature operations
  •  Good organic fouling resistance
  •  Quick start-up in a single bed or when paired with an OH-form strong base anion in layered bed systems
  •  Compatible with all system technologies and bed configurations
  •  Industry stable resin

Availability:

  • Asia Pacific
  • Europe
  • Latin America
  • North America