| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 5117014 | Journal of Environmental Management | 2017 | 8 Pages |
â¢The influences of pH and ozone dose were evaluated by design of experiments.â¢Evaluation of effects of molecular ozone and hydroxyl radicals during ozonation.â¢Ozonation at pH 3 was the most effective condition for sulfaquinoxaline degradation.â¢Toxicity of samples at pH 11 inhibited 90% of Vibrio fischeri luminescence.â¢Four degradation products with m/z 146, 215, 241, and 363 were proposed.
Sulfaquinoxaline (SQX) is an antimicrobial of the sulfonamides class. Usually employed in veterinary medicine, this contaminant of emerging concern has been found in superficial and groundwater and its consequences for the environment and human health are not completely known. In this study, SQX (C0 = 500 μg Lâ1, 1 L) degradation by an ozonation process at pH 3, 7, and 11 was evaluated. Ozonation was effective in degrading SQX: efficiency exceeding 99% was obtained applying an ozone dose of 2.8 mg Lâ1 at pH 3. Assays were performed according to a 22 design of experiments (DOE) with star points and three central points for statistical validity. Minimum and maximum levels were set at 3 and 11 for pH, and 0 and 11.5 mg Lâ1 for applied ozone dose. There was no significant interaction between these variables, and the pH value played the most important role in terms of contaminant degradation. In relation to toxicity, samples ozonated at pH 3 did not inhibit the luminescence of the bacteria, even though different intermediates were formed and identified by mass spectra. At pH 7, inhibition of luminescence remained almost constant (at around 30%) according to ozonation time or ozone dose. However, the hydroxyl radical, the major oxidant at pH 11, was responsible for the formation of toxic intermediates.
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