Roy Nir Lieberman, Oriol Font, Xavier Querol, Yizthak Mastai and Haim Cohen
Scientific Tracks Abstracts: J Environ Anal Toxicol
Israel imports ~13Mt of Bituminous coal annually. The pulverized coal is fired in 4 coal power plants and produce ~1.3M tons of coal Fly Ash (FA) and ~180k ton of bottom ash (in 2013) as a residue. Moreover, Air Quality regulations in Israel forbid emissions of toxic pollutants (example S, Hg) therefore; the coal undergoes beneficiation process in order to reduce its mineral content including sulfur and mercury. These results in formation of alkaline fly ashes (Class F), therefore are very basic upon immersion in water (liquid/solid ratio 10/1, South African Fly Ash, SAFA, pH>12.5, Colombian Fly Ash, COFA, pH>10.5). Today, ~100% of the coal fly ash are utilized is in the construction industry although it is known that it can neutralize acidic mine drainage therefore the fly ash can also be referred as chemical reagent. Therefore the possibility of using the fly ash as a chemical reagent to neutralize and also fixate different wastes is investigated in this study. Two wastes have been studied: (1) Acidic wastes either from the phosphate industry or the regeneration processes of used motor oil (viaOleum extraction). (2) Quarries sludges which consider hazardous. The results have shown that the FAs can act as an efficient encapsulation reagent for these wastes. Moreover, leaching experiments via the European Directive (EN12457-2) methods have proved that the aggregate products are in accord with the compliance test for leaching and the leached water is within the D L standards in Israel and also under the hazardous limits of the European Directive.
Roy Nir Lieberman has completed his PhD from Bar Ilan University. He is doing his Postdoctoral Research in the Institute of Environmental Assessment and Water Research, Consejo Superior de Investigaciones CientÃficas (CSIC) in Barcelona, Spain.
Environmental & Analytical Toxicology received 6818 citations as per Google Scholar report