Regenerative adsorbent technologies provide significant advantages over conventional approaches. Regenerable systems allow the adsorbent material to be reused multiple times. The regeneration process uses commercially available chemicals, and the adsorbent-filled tanks are returned to the system after treatment, resulting in minimal hazardous waste generation. This contributes directly to circular economy principles by extending material life cycles and reducing environmental impact.

Our own regenerable adsorbents based on cerium hydroxide and zeolite remove arsenic, fluorine, boron, iodine, iron, manganese, and ammonia from the water. Offered in bulk filtration form, it is an excellent solution for waterworks, water companies, and other industrial water management service providers. Our adsorbents have all the necessary regulatory approvals for operation and distribution.

Operational experience demonstrates that regenerable adsorbents significantly reduce environmental burdens compared to single-use materials by minimising waste generation and resource consumption. Furthermore, regeneration extends the functional life of the adsorbent, increasing economic value creation while supporting sustainability objectives.

During cleaning, when the adsorbent has reached its capacity limit (3-24 months, depending on water quality), regeneration with commercially available chemicals is necessary (duration: 7 hours).
This process takes place in our factory, where the contaminated adsorbent is safely treated. After regeneration, the purified adsorbent is returned to the cleaning technology, reducing the waste generated.

 

ASMET FOR ARSENIC REMOVAL FROM DRINKING WATER 

  • reduces arsenic concentrations below 1 μg/l (WHO standard 10 mg/l) 
  • binds As (III) and As (V) in water 
  • the temperature of the water to be treated must not exceed 50 °C - can also be used in some thermal springs 
  • In contrast to conventional and chemical-intensive arsenic mitigation methods, AsMet is a specially developed filter resin that offers a cost-effective, sustainable, and economical solution for water treatment 

FLUMET FOR FLUORIDE REMOVAL

  • for steel, aluminium, semiconductor and other related industries
  • pH and redox substances must be controlled by pre-treatment
  • pH between 3 and 3,5 is optimal 
  • reduce the fluoride ion content of treated water to below 1 mg/l 
  • the maximum fluoride concentration is 30 mg/l 

BOMET FOR BORON REMOVAL

  • for the treatment of drinking water and the removal of boron from seawater above the sanitary limit value, which is removed by desalination 
  •  best results in boron reduction between 30 and 300 mg/l boron 
  • production of boron-free sea salt 

 

  • cerium-based adsorbent resin
  • flexible use for all waterworks and water industry operators
  • adsorbent life 30 years
  • can be regenerated and used multiple times
  • a cost-effective, environmentally friendly solution
  • works with water flow
  • does not change other parameters of drinking water (taste, smell)
  • can also be fitted as an adapter at the end of an existing technology line
Regenerable adsorbents

Fields of application

  • water utility service providers, water technology companies
  • municipal and industrial wastewater treatment companies
  • technological water treatment of thermal power plants, mines, and other factories
  • bottling plants
  • vegetable, fruit, and food processing industries

Additional features

  • easy and fast to install
  • cost-effective and sustainable
  • favourable operation
  • operational cost savings
  • low carbon footprint