Both biological treatment processes including conventional activated sludge (CAS) and biological nutrient removal (BNR) processes, and physico–chemical treatment processes including ozonation process and Title 22 process consisting of coagulation, sedimentation and filtration followed by UV or chlorination disinfection after the above biological processes, were compared from the viewpoint of removal efficiency. 66 pharmaceuticals including antibiotics, analgesics, psychoneurotic agents were measured with SPE-LC/MS/MS. 26 compounds out of 66 were detected in the influent ranging ng/L to μg/L order. Particularly, disopyramide, sulpiride, and dipyridamole that have been rarely detected before in the WWTP, occurred at concentration levels of more than 100 ng/L. The total concentration of the individual pharmaceuticals in the influent was efficiently removed by 80% during the biological treatment. But removal efficiencies of carbamazepine and crotamiton were less than 30%. The total concentration of the individual pharmaceuticals in the effluent from CAS process was 1.5 times higher than that from BNR process. Further, the total concentration of the individual pharmaceuticals in the discharge from WWTPs applying ozonation following activated sludge process was reduced to less than 20%. Physico–chemical treatment train called Title 22 treatment after CAS could not efficiently remove the pharmaceuticals. However, ozonation process followed by biological activated carbon process could efficiently reduce all the residual pharmaceuticals below their quantification limits.
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Research Article|
January 01 2008
Removal efficiency of 66 pharmaceuticals during wastewater treatment process in Japan
T. Okuda;
1Research Center for Environmental Quality Management, Kyoto University Graduate School of Engineering, 1-2 Yumihama, Otsu City, Shiga 520-0811, Japan
E-mail: [email protected]
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Y. Kobayashi;
Y. Kobayashi
1Research Center for Environmental Quality Management, Kyoto University Graduate School of Engineering, 1-2 Yumihama, Otsu City, Shiga 520-0811, Japan
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R. Nagao;
R. Nagao
1Research Center for Environmental Quality Management, Kyoto University Graduate School of Engineering, 1-2 Yumihama, Otsu City, Shiga 520-0811, Japan
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N. Yamashita;
N. Yamashita
1Research Center for Environmental Quality Management, Kyoto University Graduate School of Engineering, 1-2 Yumihama, Otsu City, Shiga 520-0811, Japan
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H. Tanaka;
H. Tanaka
1Research Center for Environmental Quality Management, Kyoto University Graduate School of Engineering, 1-2 Yumihama, Otsu City, Shiga 520-0811, Japan
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S. Tanaka;
S. Tanaka
1Research Center for Environmental Quality Management, Kyoto University Graduate School of Engineering, 1-2 Yumihama, Otsu City, Shiga 520-0811, Japan
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S. Fujii;
S. Fujii
1Research Center for Environmental Quality Management, Kyoto University Graduate School of Engineering, 1-2 Yumihama, Otsu City, Shiga 520-0811, Japan
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C. Konishi;
C. Konishi
2Murata Keisokuki Service Co., Ltd., 15 Akibachou, Totsuka-ku Yokohama City, Kanagawa 245-0052, Japan
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I. Houwa
I. Houwa
2Murata Keisokuki Service Co., Ltd., 15 Akibachou, Totsuka-ku Yokohama City, Kanagawa 245-0052, Japan
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Water Sci Technol (2008) 57 (1): 65–71.
Citation
T. Okuda, Y. Kobayashi, R. Nagao, N. Yamashita, H. Tanaka, S. Tanaka, S. Fujii, C. Konishi, I. Houwa; Removal efficiency of 66 pharmaceuticals during wastewater treatment process in Japan. Water Sci Technol 1 January 2008; 57 (1): 65–71. doi: https://doi.org/10.2166/wst.2008.822
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