Removal of pharmaceuticals in water by introduction of ozonated microbubbles

[Display omitted] •O3-MB was applied to remove 39 pharmaceuticals in 10 therapeutic classes in water.•Over 90% removal rate was obtained for 33 compounds (>80% for 37 compounds).•O3-MB enhanced removal efficiency by 8–34% relative to the conventional O3.•UV and/or H2O2 increased the reaction rate...

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Bibliographic Details
Published in:Separation and purification technology 2019-04, Vol.212, p.483-489
Main Authors: Azuma, Takashi, Otomo, Kana, Kunitou, Mari, Shimizu, Mai, Hosomaru, Kaori, Mikata, Shiori, Mino, Yoshiki, Hayashi, Tetsuya
Format: Article
Language:English
Subjects:
Advanced oxidation processes (AOPs)
Ozone-microbubble (O3-MB)
Pharmaceuticals and personal care products (PPCPs)
Removal efficiency
Water treatment system
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Summary:[Display omitted] •O3-MB was applied to remove 39 pharmaceuticals in 10 therapeutic classes in water.•Over 90% removal rate was obtained for 33 compounds (>80% for 37 compounds).•O3-MB enhanced removal efficiency by 8–34% relative to the conventional O3.•UV and/or H2O2 increased the reaction rate constant by 2.9–5.5 times relative to O3-MB.•MB treatment improved O3 consumption up to 2.8 times higher than O3 treatments. Ozonated-microbubble (O3-MB) was applied to remove 39 pharmaceuticals in 10 therapeutic classes (ant-ivirals, anti-bacterials, anti-cancer drugs, psychotropics, anti-hypertensives, analgesic-antipyretics, contrast media, bronchodilators, anti-pruritics, and herbal medicines) in water and the results were compared with those given by O3 alone and combined treatments with UV, and/or H2O2, or both. The summarized results clearly indicate that O3-MB based treatments significantly (P 90% (>80%) were attained for 33 (37) compounds. Introduction of MB technology was indispensable to improve degradation of famciclovir (anti-viral), bicalutamide (anti-cancer), sulpiride (phychotropic) and acetaminophen glucuronide (analgesic-antipyretic) over 96.0%. Recalcitrant properties of all contrast media type compounds (iohexol, ioversol, iopromide, iomeprol and iopamidol) against both O3 and O3-MB were significantly improved by combined treatment with UV, and removal rates became 93.8–98.8% from 0% to 52.0%, indicating effectiveness of combined use of photolysis more than oxidation by hydroxyl radicals. Combination of UV and/or H2O2 with O3-MB increased the reaction rate constant by 2.9–5.5 times in average relative to O3 and O3-MB. In addition, MB treatment improved O3 consumption up to 2.8 times higher than the O3 treatments. These results indicate that the combined treatments of O3-MB with UV and/or H2O2 could minimize the environmental pollutant load of pharmaceuticals discharged into rivers. To the best of our knowledge, this is the first investigation which showed enhancement of removal rates of multiple pharmaceuticals together with combined use of UV and/or H2O2.
ISSN:1383-5866
1873-3794
DOI:10.1016/j.seppur.2018.11.059