Overview

Principalele Aplicatii

  • Eliminarea coloizilor

Avantaje

  • Capacitate ridicată de operare
  • Regenerare eficientă
  • Rezistență mecanică ridicată
  • Porozitate foarte mare

Aprobari de reglementare

  • Certificat Halal IFANCA

Ambalaje tipice

  • sac 1 ft³
  • 25 L sac
  • Butoi (Fibră) de 5 CF
  • 1 M³ supersac
  • supersac de 42 CF

Caracteristici tipice fizice si chimice

Structura polimerica polimer polistiren macroporos reticulat cu DVB
Aspect Perle sferice
Grupari functionale Grupari quaternare de amoniu tip I
Forma ionica forma Cl-
Capacitatea totală (min.) 0.5 eq/L (10.9 Kgr/ft³) ( forma Cl- )
reținerea umidității 67 - 75 % ( forma Cl- )
Distribuția granulometrică 425 - 1200 µm
< 425 µm (max.) 5 %
coeficient de uniformitate (max.) 1.7
Greutate de transport (aprox.) 590 - 610 g/L (36.9 - 38.1 lb/ft³)
Limita de temperatură 100 °C (212.0 °F) ( forma Cl- )
Limita de temperatură 60 °C (140.0 °F) ( forma OH- )
Valoarea medie a rezistentei la spargere 40 g

Caracteristici hidraulice

Pressure Drop

The pressure drop across a bed of ion exchange resin depends on the particle size distribution, bed depth, and voids volume of the exchange material, as well as on the flow rate and viscosity of the influent solution. Factors affecting any of these parameters— such as the presence of particulate matter filtered out by the bed, abnormal compressibility of the resin, or the incomplete classification of the bed—will have an adverse effect, and result in an increased head loss. Depending on the quality of the influent water, the application and the design of the plant, service flow rates may vary from 10 to 40 BV/h.

Pressure Drop Across Resin Bed