Effect of on UV Photo-Oxidation of Pharmaceuticals and Personal Care Products in Wastewater
Publication: Journal of Environmental Engineering
Volume 142, Issue 11
Abstract
This study investigates the effect of low levels of hydrogen peroxide () on photo-oxidation of pharmaceuticals and personal care products (PPCPs) present in secondary effluent of a municipal wastewater treatment plant (WWTP). Experiments were conducted using two types of flow-through reactor systems: (1) three ultraviolet light (UV) reactors connected in series without a addition, and (2) a UV reactor with a addition. In the first part of this study, 38 PPCPs detected in secondary effluent were examined based on their degradability by UV in the presence and absence of . For the PPCPs that were not degraded to or below their detection level, the pseudo first-order photo-oxidation rate constants, k (), were determined using a mathematical model developed for three continuously stirred tank reactors in series. The second part of the study investigated the kinetics of the selected PPCPs in the reactor. The effect of low concentrations of on the photo-oxidation rate of PPCPs was quantified by the power function expression.
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Acknowledgments
The draft version of the manuscript was prepared during the visiting scholar program under the auspices of Kyoto University.
References
Andreozzi, R., Caprio, V., Marotta, R., and Radovnikovic, A. (2003). “Ozonation and treatment of clofibric acid in water: A kinetic investigation.” J. Hazard. Mater., 103(3), 233–246.
Audenaert, W. T. M., Vandierendonck, D., Van Hulle, S. W. H., and Nopens, I. (2013). “Comparison of ozone and HO center dot induced conversion of effluent organic matter (EfOM) using zonation and treatment.” Water Res., 47(7), 2387–2398.
Baga, A. N., Johnson, G. R. A., Nazhat, N. B., and Saadalla-Nazhat, R. A. (1988). “A simple spectrophotometric determination of hydrogen peroxide at low concentrations in aqueous solution.” Anal. Chem. Acta, 204, 349–353.
Beltrán, F. J., Ovejero, G., and Acedo, B. (1993). “Oxidation of atrazine in water by ultraviolet radiation combined with hydrogen peroxide.” Water Res., 27(6), 1013–1021.
Borikar, D., Mohseni, M., and Jasim, S. (2015). “Evaluations of conventional, ozone and for removal of emerging contaminants and THM-FPs.” Water Qual. Res. J. Can., 50(2), 140–151.
Buser, H. R., Poiger, T., and Muller, M. D. (1998). “Occurrence and fate of the pharmaceutical drug diclofenac in surface waters: Rapid photodegradation in a lake.” Environ. Sci. Technol., 32(22), 3449–3456.
Cleuvers, M. (2004). “Mixture toxicity of the anti-inflammatory drugs diclofenac, ibuprofen, naproxen, and acetylsalicylic acid.” Ecotoxicol. Environ. Saf., 59(3), 309–315.
Crittenden, J. C., Hu, S. M., Hand, D. W., and Green, S. A. (1999). “A kinetic model for process in a completely mixed batch reactor.” Water Res., 33(10), 2315–2328.
Daughton, C. G., and Ternes, T. A. (1999). “Pharmaceuticals and personal care products in the environment: Agents of subtle change?” Environ. Health Perspect., 107, 907–938.
Du, J., Fan, Y., and Qian, X. (2015). “Occurrence and behavior of pharmaceuticals in sewage treatment plants in eastern China.” Front. Environ. Sci. Eng., 9(4), 725–730.
Glaze, W. H., Kang, J. W., and Chapin, D. H. (1987). “The chemistry of water treatment processes involving ozone, hydrogen peroxide and ultraviolet radiation.” Ozone Sci. Eng., 9(4), 335–352.
Glaze, W. H., Lay, Y. S., and Kang, J. W. (1995). “Advanced oxidation processes, a kinetic model for the oxidation of 1, 2-dibromo-3-chloropropane in water by the combination of hydrogen peroxide and UV radiation.” Ind. Eng. Chem. Res., 34(7), 2314–2323.
Gonzalez-Rey, M., Tapie, N., Le Menach, K., Devier, M. H., Budzinski, H., and Bebianno, M. J. (2015). “Occurrence of pharmaceutical compounds and pesticides in aquatic systems.” Mar. Pollut. Bull., 96(1-2), 384–400.
Halling-Sørensen, B., Nielsen, S. N., Lanzky, P. F., Ingerslev, F., Lutzhoft, H. C. H., and Jorgensen, S. E. (1998). “Occurrence, fate and effects of pharmaceutical substances in the environment—A review.” Chemosphere, 36(2), 357–393.
Han, W., Zhu, W., Zhang, P., Zhang, Y., and Li, L. (2004). “Photocatalytic degradation of phenols in aqueous solution under irradiation of 254 and 185 nm UV light.” Catal. Today, 90(3-4), 319–324.
Heberer, T. (2002). “Occurrence, fate and removal of pharmaceutical residues in the aquatic environment: A review of recent research data.” Toxicol. Lett., 131(1-2), 5–17.
Heberer, T., Dunnbier, U., Reilich, C., and Stan, H. J. (1997). “Detection of drugs and drug metabolites in ground water samples of a drinking water treatment plant.” Fresenius Environ. Bull., 6(7-8), 438–443.
Heberer, T., Schmidt-Baumler, K., and Stan, H.-J. (1998). “Occurrence and distribution of organic contaminants in the aquatic system in Berlin. Part I: Drug residues and other polar contaminants in Berlin surface and ground water.” Acta Hydroch. Hydrob., 26(5), 272–278.
Hu, X. Y., Yang, J. A., Yang, C. Z., and Zhang, J. D. (2010). “ degradation of 4-aminoantipyrine: A voltammetric study.” Chem. Eng. J., 161(1-2), 68–72.
Huber, M. M., Canonica, S., Park, G. Y., and von Gunten, U. (2003). “Oxidation of pharmaceuticals during ozonation and advanced oxidation processes.” Environ. Sci. Technol., 37(5), 1016–1024.
Jin, X. H., Peldszus, S., and Huck, P. M. (2012). “Reaction kinetics of selected micropollutants in ozonation and advanced oxidation processes.” Water Res., 46(19), 6519–6530.
Kanda, R., Griffin, P., James, H. A., and Fothergill, J. (2003). “Pharmaceutical and personal care products in sewage treatment works.” J. Environ. Monit., 5(5), 823–830.
Kim, I., and Tanaka, H. (2009). “Photodegradation characteristics of PPCPs in water with UV treatment.” Environ. Int., 35(5), 793–802.
Kim, I. H., Yamashita, N., Kato, Y., and Tanaka, H. (2009a). “Discussion on the application of , and processes as technologies for sewage reuse considering the removal of pharmaceuticals and personal care products.” Water Sci. Technol., 59(5), 945–955.
Kim, I. H., Yamashita, N., and Tanaka, H. (2009b). “Performance of UV and processes for the removal of pharmaceuticals detected in secondary effluent of a sewage treatment plant in Japan.” J. Hazard. Mater., 166(2-3), 1134–1140.
Kim, I. H., Yamashita, N., and Tanaka, H. (2009c). “Photodegradation of pharmaceuticals and personal care products during UV and treatments.” Chemosphere, 77(4), 518–525.
Kolpin, D. W., et al. (2002). “Pharmaceuticals, hormones, and other organic wastewater contaminants in US streams, 1999–2000: A national reconnaissance.” Environ. Sci. Technol., 36(6), 1202–1211.
Lopez, A., Anna, B., Giuseppe, M., and John, K. (2003). “Kinetic investigation on UV and degradations of pharmaceutical intermediates in aqueous solution.” J. Photochem. Photobiol. A: Chem., 156(1-3), 121–126.
Matongo, S., Birungi, G., Moodley, B., and Ndungu, P. (2015). “Pharmaceutical residues in water and sediment of Msunduzi River, KwaZulu-Natal, South Africa.” Chemosphere, 134, 133–140.
Nakada, N., Tanishima, T., Shinohara, H., Kiri, K., and Takada, H. (2006). “Pharmaceutical chemicals and endocrine disrupters in municipal wastewater in Tokyo and their removal during activated sludge treatment.” Water Res., 40(17), 3297–3303.
Nicole, I., Laat, J. D., Dore, M., Duguet, J. P., and Bonnel, C. (1990). “Use of UV radiation in water treatment: Measurement of photonic flux by hydrogen peroxide actinometry.” Water Res., 24(2), 157–168.
Okuda, T., et al. (2008). “Removal efficiency of 66 pharmaceuticals during wastewater treatment process in Japan.” Water Sci. Technol., 57(1), 65–71.
Ollers, S., Singer, H. P., Fassler, P., and Muller, S. R. (2001). “Simultaneous quantification of neutral and acidic pharmaceuticals and pesticides at the low-ng/1 level in surface and waste water.” J. Chromatogr. A, 911(2), 225–234.
Pereira, V. J., Linden, K. G., and Weinberg, H. S. (2007a). “Evaluation of UV irradiation for photolytic and oxidative degradation of pharmaceutical compounds in water.” Water Res., 41(19), 4413–4423.
Pereira, V. J., Weinberg, H. S., Linden, K. G., and Singer, P. C. (2007b). “UV degradation kinetics and modeling of pharmaceutical compounds in laboratory grade and surface water via direct and indirect photolysis at 254 nm.” Environ. Sci. Technol., 41(5), 1682–1688.
Rosenfeldt, E. J., and Linden, K. G. (2007). “The R-OH, R-UV concept to characterize and the model process in natural waters.” Environ. Sci. Technol., 41(7), 2548–2553.
Sharpless, C. M., and Linden, K. G. (2003). “Experimental and model comparisons of low- and medium-pressure Hg lamps for the direct and assisted UV photodegradation of N-nitrosodimethylamine in simulated drinking water.” Environ. Sci. Technol., 37(9), 1933–1940.
Shu, Z. Q., Bolton, J. R., Belosevic, M., and El Din, M. G. (2013). “Photodegradation of emerging micropollutants using the medium-pressure advanced oxidation process.” Water Res., 47(8), 2881–2889.
Snyder, S. A., Westerhoff, P., Yoon, Y., and Sedlak, D. L. (2003). “Pharmaceuticals, personal care products, and endocrine disruptors in water: Implications for the water industry.” Environ. Eng. Sci., 20(5), 449–469.
Ternes, T. A. (1998). “Occurrence of drugs in German sewage treatment plants and rivers.” Water Res., 32(11), 3245–3260.
Ternes, T. A., et al. (2002). “Removal of pharmaceuticals during drinking water treatment.” Environ. Sci. Technol., 36(17), 3855–3863.
Vogna, D., Marotta, R., Andreozzi, R., Napolitano, A., and d’Ischia, M. (2004a). “Kinetic and chemical assessment of the treatment of antiepileptic drug carbamazepine.” Chemosphere, 54(4), 497–505.
Vogna, D., Marotta, R., Napolitano, A., Andreozzi, R., and d’Ischia, M. (2004b). “Advanced oxidation of the pharmaceutical drug diclofenac with and ozone.” Water Res., 38(2), 414–422.
Vogna, D., Marotta, R., Napolitano, A., and d’Ischia, M. (2002). “Advanced oxidation chemistry of paracetamol. -induced hydroxylation/degradation pathways and N-15-aided inventory of nitrogenous breakdown products.” J. Org. Chem., 67(17), 6143–6151.
Yang, G., Fan, M. H., and Zhang, G. M. (2014). “Emerging contaminants in surface waters in China—A short review.” Environ. Res. Lett., 9(7), 1–13.
Yao, H., Sun, P. Z., Minakata, D., Crittenden, J. C., and Huang, C. H. (2013). “Kinetics and modeling of degradation of lonophore antibiotics by UV and .” Environ. Sci. Technol., 47(9), 4581–4589.
Zuccato, E., Calamari, D., Natangelo, M., and Fanelli, R. (2000). “Presence of therapeutic drugs in the environment.” Lancet, 355(9217), 1789–1790.
Zwiener, C. (2007). “Occurrence and analysis of pharmaceuticals and their transformation products in drinking water treatment.” Anal. Bioanal. Chem., 387(4), 1159–1162.
Zwiener, C., and Frimmel, F. H. (2000). “Oxidative treatment of pharmaceuticals in water.” Water Res., 34(6), 1881–1885.
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© 2016 American Society of Civil Engineers.
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Received: Oct 27, 2015
Accepted: Feb 23, 2016
Published online: May 27, 2016
Discussion open until: Oct 27, 2016
Published in print: Nov 1, 2016
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