Rapid development, industrialization and modern life style of today requires tremendous amount of water, which after use is released in a highly polluted form in sea or rivers, making the water resources unfit for reuse besides endangering the environment of river and marine flora and fauna.
Nature has an amazing ability to cope with small amounts of water, wastes and pollution, but the levels of pollution generated by the modern industrial world are not possible for Nature to handle and degrade through natural processes. Nature would be overwhelmed if we didn't treat the billions of gallons of wastewater produced every day before releasing it back to the environment.
Treatment plants reduce pollutants in wastewater to a level nature can handle It would be pertinent to point out that even the civic infrastructure of our cities are finding it increasingly difficult to cope up with the pollution load that is being generated and discharged into the underground sewerage systems. Hence, it is being mandated that large commercial complexes, malls, mass housing complexes build their own localized wastewater treatment facilities and re-use at least a part of their waste water for gardening, toilet flushing, etc.
Keeping in line with today's needs, We brought forth a cost-effective and efficient technology based on Adsorbtion which is especially suited for large commercial complexes, malls, mass housing complexes and treatment plant to treat their wastewater and re-use the same for non-potable purposes.
Absorption on active site will effect complete Biological and Chemical degradation of organics. The System will ensure consistency in discharge parameters, a reduction in bacterial count, and minimum concentration of refractory organics.
Absorption uses specially treated supporting media is filled in the circular/rectangular tanks on which the micro-organisms get attached or can be on line injected in the sewage water. The contamination from the wastewater is adsorb to this media and is degraded by the microbes and by absorption, thus reducing the BOD hence the COD.