Drinking water

Arsenate AsO4Chromium CrPerchlorate CIO4Phosphate PO4

Drinking water

Water scarcity already affects every continent. Around 1.2 billion people, or almost one-fifth of the world’s population, live in areas of physical scarcity, and 500 million people are approaching this situation. Another 1.6 billion people, or almost one quarter of the world’s population, face economic water shortage. (Source: Water for life 2005-2015)

Heavy metals in water sources presents even a greater challenge, as a low concentration of these pollutants disqualifies large volumes of drinking water.

Challenges

  1. Drinking water usually contains competitive ions which are non-toxic, but are adsorbed by existing adsorbents in the market at the same level of affinity as the toxic ions. This results in rapid saturation of the media, translating into high operational costs.
  2. State of the art ion exchange solutions usually present leakage of the media components back into the treated water stream.
  3. State of the art adsorbed media usually need to be replaced when they reach saturation.

Our Solution

ToxSorb’s MAC platform selectively removes the designated ions, resulting in less frequent regenerations. The regenerated media does not degrade in quality after regeneration and can therefore be returned into the treatment process. All of the above translates into meaningful cost savings for our clients. In addition, ToxSorb’s solution is approved by the NSF as safe for drinking water purposes.

NSF