Using photoactivated acetone for the degradation of Chlorazol Black in aqueous solutions: Impact of mineral and organic additives

Abstract

This study examined the effect of different mineral and organic additives on the degradation of Chlorazol Black (CB, 25.5 μM) in aqueous media by UV/acetone process. Initially, it was found that acetone (50 mM)-assisted UV irradiation accelerated the CB removal within 30 min to 98% against 34% for the sole UV, presumably due to the implication of methyl radicals in the degradation process as confirmed by O2 saturation and nitrite addition (as CH3-specific scavengers). While NaCl and Na2SO4 have no impact on the degradation kinetics of CB upon UV/acetone process, NaHCO3 and Na2CO3 slightly inhibited it and a relatively more inhibition was observed with NaNO3 and KBr. The degradation performance was somewhat decreased in natural mineral water. On the other hand, ascorbic acid, as free radicals scavenger, at low concentration (0.1 mM) completely quenched the positive effect of acetone confirming the free radical mechanism on CB degradation. Besides, the implication of OH was excluded by adding 2‑propanol (up to 50 mM). Furthermore, the slight decrease in CB removal in the presence of sucrose, glucose and humic acid is a clear indication that UV/acetone process is a promising technique for removing organic dyes from environmental samples.