Purolite Purofine PFA300 Anionic Resin

$1.00

Purolite™ Purofine™ PFA300 Resin is an anionic ion exchange resin designed for water demineralization. It offers high operating capacity, regeneration efficiency and uniform particle size, ensuring high purity water in industrial applications.

Description

Anionic Purolite Purofine PFA300

Purolite Purofine PFA300 Resin is a strong base Type II anionic ion exchange resin in chloride form, specifically designed for industrial water demineralization applications.

Main characteristics Purolite Purofine PFA300 :

  • Polymeric structure: Polystyrene gel cross-linked with divinylbenzene, which provides high physical and chemical stability.
  • Functional group: Type II quaternary ammonium, responsible for the efficient ion exchange capacity.
  • Minimum total capacity: 1.4 eq/L in the form of Cl-, ensuring optimum performance in demineralization processes.
  • Moisture retention: 40 - 47% in the form of Cl-, indicating adequate hydration for ion exchange.
  • Mean particle diameter: 570 ± 50 µm, with a uniformity coefficient between 1.1 and 1.2, ensuring uniform and efficient distribution in the resin bed.
  • Specific gravity: 1.09, with an approximate shipping weight of 675 - 700 g/L, facilitating handling and installation.
  • Temperature limit: 85 °C in Cl- form and 35 °C in OH- form, allowing its use in various operating conditions.

Applications:

  • Industrial water demineralization: Efficiently removes unwanted anions, producing high purity water for sensitive industrial processes.

Advantages:

  • High operational capacity: Offers superior anion removal performance during demineralization.
  • Efficiency in regeneration: Requires smaller quantities of regenerants, optimizing operating costs.
  • Uniform particle size: Provides lower pressure drop and more uniform flow distribution in the resin bed.

Packaging available:

  • 1 foot sack³
  • 25 L sack
  • 5 ft³ fiber drum

Purolite Purofine PFA300 Resin is a reliable and efficient solution for water demineralization needs in industrial applications, backed by its high operational capacity and regeneration efficiency.