Photocatalysis, ozonation and activated carbons were investigated separately and in combination as tools for the purification of polluted salt water. Coupling different processes enables to overcome many drawbacks related to the use of the single technologies and at the same time to exploit possible synergistic effects. In this work a kinetic analysis was performed for modelling the degradation of 4-nitrophenol (4NP) as a probe pollutant molecule in synthetic seawater. Thus, the optimum synergistic conditions of the three processes acting together were determined and discussed.
Parrino, F., Cataldo, S., Ianni, A., Loddo, V., Mirenda, E., Palmisano, L., et al. (2015). Optimization of coupled advanced oxidation processes and activated carbons for purification of salt water. In Conference program and book of abstract / European conference on environmental applications of advanced oxidation processes / B1-15. Atene.
Optimization of coupled advanced oxidation processes and activated carbons for purification of salt water
PARRINO, Francesco;CATALDO, Salvatore;LODDO, Vittorio;PALMISANO, Leonardo;PIAZZESE, Daniela
2015-01-01
Abstract
Photocatalysis, ozonation and activated carbons were investigated separately and in combination as tools for the purification of polluted salt water. Coupling different processes enables to overcome many drawbacks related to the use of the single technologies and at the same time to exploit possible synergistic effects. In this work a kinetic analysis was performed for modelling the degradation of 4-nitrophenol (4NP) as a probe pollutant molecule in synthetic seawater. Thus, the optimum synergistic conditions of the three processes acting together were determined and discussed.
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