Cation Exchange Resins:

Strong Acidic Cation Exchanger (Gel Type): Softening, Demineralization, Mixed Bed, Ultra Pure Water, Fluidized Bed, Antibiotic Purification.

Strong Acidic Cation Exchanger (Macroporous): Resins resistant to physical breakage and osmotic shock and resistant to organic contamination. Demineralization, Mixed Bed and Ultra Pure Water supply.

Weak Acidic Cation Exchanger (Macroporous): Type resins that are resistant to physical breakage and osmotic shock and resistant to organic contamination. They are high-capacity resins for softening, demineralization and dealkalization.

Anion Exchange Resins:

Strong Basic Anion Exchanger (Gel Type): Demineralization, Silica removal, Mixed Bed, Ultra Pure Water, Fluidized Bed, Antibiotic Extraction, organic acid absorption, Food industry.

Strong Basic Anion Exchanger (Macroporous): Resins resistant to physical breakage and osmotic shock and resistant to organic contamination. Demineralization, Mixed Bed and Ultra Pure Water Supply.

Weakly Basic Anion Exchanger (Macroporous)

They are type resins that are resistant to physical breakage and osmotic shock and resistant to organic contamination. They have very high capacity and good kinetic properties. It is used in demineralization, fluidized bed, sucrose, Fructos, Glucose and other organic solutions for decolorization, refining gold from cyanide solution.

Special Type Resins:

Tribed Resins: They are designed for demineralization systems operating at high linear speed. Linear Speed: 80 m / h. can reach up to its value.

Condensate System Resins: They are used for condensate water purification. They are resistant to physical breakage and osmotic shock, oxidation and high temperature. Linear Speed ​​120 m / st. can reach its value.

Catalyst Resins: They are Super-Gel type resins. They are resins with high activity, high selectivity and high mechanical strength. It is used in the preparation of Bisphenol A and MTBE.

Chelating Resins: Used for heavy metal, boron adsorption, mercury removal, nitrate removal, arsenic removal.

Adsorbent Resins: Biochemicals are used for organic matter removal, color removal, and color removal from fruit juice.

Inert Resins: They are used to keep the resin bed stable and rest between resin beds in counter-current, fluidized bed systems.

Uniform Grain Diameter Resins: Resins with no difference in resin grain diameter. They are resins with high capacity, use less regeneration chemicals and are more resistant to mechanical effects and shocks.