The core principles and phenomena used are diffusion, sheer stress and micro jets caused by collapse of cavitation cavities and bubbles

More about Kinetic Reactor solutions for drinking water distribution

 


ABOUT KINETIC REACTOR TECHNOLOGY


Kinetic Reactor technology is based on globally patented device (Reactor) and procedure with the incorporated core principles of diffusion (for gas exchange and charge balance), sheer stress (covalent bonds disruption), micro jets caused by cavitation cavities and bubbles collapse (microbiological disinfection).

Application wise, Kinetic Reactor technology ensures performance without use of additional chemicals and do not form (harmful) waste.

Kinetic Reactor technology is environmental sustainable and carbon neutral technology.

Applications

Kinetic Reactor technology application wise ensures:

    1. Safe drinking water at the source, on distribution network and on end point
    2. Technological and process conditions for network operation:
      a) Organic load relief
      b) Network fluidity
      c) Chlorine as a control chemical for network compliance

Kinetic Reactor technology ensures plethora of specialized applications:

  1. Network cleaning - scale deposits, biofilm, microbiological contamination; without the use of additional substances (chemicals) and without waste; as a special service or "bonus" within the application solution
  2. Prevention of corrosion processes
  3. Extraction of dissolved gases in water
  4. Mobile services - temporary or long-term rental of (containerized) equipment
  5. Calculations of the chemical footprint of water, which enable solutions and services without the use of chemicals

NITRATES REMOVAL WITH KINETIC REACTOR TECHNOLOGY

Kinetic Reactor technology ensures nitrates removal with adsorption on granular activated carbon. Set up – Kinetic Reactor and GAC, if needed sand filter in between.

ARSENIC REMOVAL WITH KINETIC REACTOR TECHNOLOGY

Kinetic Reactor technology ensures arsenic removal with the use of dissolved iron in water, there is no need for use of GFO (granular ferric oxide) or GEH (granular ferric hydroxide).

Equilibrium constant

Determination of equilibrium constant of the water, subject of distribution, is crucial when pressure and temperature of the media is changing.

Parameterization starts with water chemical footprint calculation and ends with the algorithm of Kinetic Reactor performance. In advance known parameters ensure network cleaning and permanent prevention from harmful influences of water (distribution) on infrastructure.

Approach

Kinetic Reactor technology is based on providing solutions, the same is approach from our certified partners. Every single proposed and executed solution is based on:

  1. Technical Due diligence of the site with applications, critical points and control points determination
  2. System design – the most efficient solution technically and economically
  3. Deliveries of equipment and services,
  4. Top level of support and maintenance