ABSTRACT
Water is a pre-request for life, and key source for humanity and it is abundant on earth. The
whole amount of water existing on earth (Ocean, Lakes, Polar Regions, glaciers, underground
water and water of bio-sphere and atmosphere) is around 1.4 x109 km. However 97.5 % is
saltwater. Of the remaining 2.5 %that is fresh water, 70 % is frozen in polar icecaps; the rest
is mainly present as soil moisture or in inaccessible subter ranean aquifers. Only less than 1 %
of the world fresh water resource is readily available for human use; and even this resource is
very unevenly distributed. One of the characteristics that best defines today,s society is the
production of waste products. Approximately 23 % of the world's population live in
developed countries consume 78% of the resources and produce 82 % of the waste products.
In addition, it has to be pointed out that the volume of residual waste increases in an
exponential way with rega rds to a country's level industrialization. Removal of organic
pollutants from wastewater could be achieved via a number techniques such as chemical
oxidation, air desorption, liquid d -liquid extraction, adsorption, inverse osmosis, ultra -
filtration and biological treatment. These processes may transfer pollutants certain phase to
anther without destroying them. They could be selective with slow to moderate in destruction
rate, or rapid but not selective, and generally belonging to the cost effective ones. Recently a
new set of treatment technologies, called advanced oxidation technologies (AOTs), has
emerged. These technologies are based on the generation of highly reactive intermediates (
principally the hyroxyle radical ), which are capable of attacking the organic pollutants and
initiating their rapid oxidation and eventual mineralization.