Abstract
Ciprofloxacin (CIP) removal efficiency in aqueous solutions in the ultrasonic (US), K2S2O8, and US/K2S2O8 systems was investigated. The free radical generation and action ratio were studied based on variations of K2S2O8 concentration, ultrasonic power, pH, and the addition of isopropanol (ISP) or tert-butyl alcohol (TBA) in the US/K2S2O8 system. The results showed that under conditions of 20 mg·L-1 CIP concentration, 20 mmol·L-1 K2S2O8 concentration, an ultrasonic power of 360 W and pH = 7, CIP removal efficiency in the US/K2S2O8 system was 92.20% after 180 min. The reaction in the US/K2S2O8 system was explicitly divided into two stages: free radical generation and pollutants degradation. The ultrasonic and chain reaction facilitated enhanced generation of SO4-• and HO•. The presence of K2S2O8 can promote HO• generation and K2S2O8 concentration also exerted a significant effect on SO4-• generation, however, high concentrations were not beneficial to the reaction. Quenching reactions occurred under high concentrations of HO• and SO4-•. During the initial stage of the reaction, HO• played a more prominent role than SO4-•, however, the role of SO4-• gradually increased as the reaction proceeded and eventually surpassed HO•.
Highlights
In recent years, on account of its oxidation ability and good stability, advanced oxidation processes based on SO4À are considered effective technologies for degrading refractory organic contaminants (Gao et al )
In order to determine the active free radicals produced in the US/K2S2O8 system, the removal efficiencies of CIP in US, K2S2O8, and US/K2S2O8 were compared, and the effects of excessive tert-butyl alcohol (TBA) and ISP on CIP removal efficiency were investigated in the US/K2S2O8 system
According to the above experimental phenomena and analysis of the free radical generation mechanisms outlined in the section on the free radical generation mechanism, we suggest that the action of SO4À and HO changed with time
Summary
On account of its oxidation ability and good stability, advanced oxidation processes based on SO4À are considered effective technologies for degrading refractory organic contaminants (Gao et al ). Organic pollutant treatment by US/PS systems is considered a promising avenue for reasons of high efficiency and cleanliness (Chen & Huang ; Gao et al )
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