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The Study of Ibuprofen Degradation Properties by Combination of Wave Energy (Ultrasound, Ultraviolet) and Persulfate Ion
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 Title & Authors
The Study of Ibuprofen Degradation Properties by Combination of Wave Energy (Ultrasound, Ultraviolet) and Persulfate Ion
Na, Seungmin; Ahn, Yungyong; Cui, Mingcan; Son, Younggu; Khim, Jeehyeong;
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In this study, ibuprofen(IBP) degradation by the photochemical () and sonochemical () processes was examined under various parameters, such as UV () and US () power density, optimum dosage of persulfate ion (), temperature () and anions effect (, , ). The pseudo-first-order degradation rate constants were in the order of to depending on each processes. The synergistic effect of IBP degradation in and processes could investigated, due to the generation of radical. This result can confirm from the produced and concentration in each processes. IBP degradation rate affected by the dosage, temperature, power and anion existence parameters. In particular, IBP degradation rate increased with the increase of the temperature () and applied power density (UV:, US:). On the other hand, anions effect on the IBP degradation was negative, due to the anion play as a the scavenger of radical.
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Bagal, M. V., Lele, B. J., Gogate, P. R., 2013, Removal of 2,4-dinitrophenol using hybrid methods based on ultrasound at an operating capacity of 7L, Ultrason. Sonochem., 20, 1217-1225. crossref(new window)

Beckeet, M.A., Hua, I., 2001, Impact of ultrasonic frequency on aqueous sonoluminescence and sonochemistry, J. Phys. Chem., 105, pp. 3796-3802. crossref(new window)

Bennedsen, L, R., Muff, J., Sogaard, E. G., 2012, Influence of chloride and carbonates on the reactivity of activated persulfate, Chemosphere, 86, 1092-1097. crossref(new window)

Cai, J. H. Na, S. M. Ahn, Y. Y. Lee, S. B. Khim, J. H. 2012, Degradation Properties of Ibuprofen using Photocatalytic Process, J. Environ. Sci, Inter., 21(4), 411-419. crossref(new window)

Chen, W. S., Su, Y. C., 2012, Removal of dinitrotoluenes in wastewater by sono-activated persulfate, Ultrason. Sonochem., 19, 921-927. crossref(new window)

FDA, 1998, Guidance for industry: environmental assessment of human drug and biologics applications.

Gao, Y, Q., Gao, N, Y., Deng, Y., Yang, Y. Q., Ma, Y., 2012, Ultraviolet (UV) light-activated persulfate oxidation of sulfamethazine in water, Chem. Eng. J., 195-196, 248-253. crossref(new window)

Grcic, I., Papic, S., Koprivanac, N., Kovacic, I., 2012, Kinetic modeling and synergy quantification in sono and photooxidative treatment of simulated dyehouse effluent, Water Res., 46, 5683-5695. crossref(new window)

Gu, X., Lu, S., Qiu, Z., Banks, C. J., Imai, T., Lin, K., Luo, Q., 2013, Photodegradation performance of 1,1,1-trichloroethane in aqueous solution: in the presence and absence of persulfate, Chem. Eng. J., 215-216, 29-35. crossref(new window)

Huang, Y. F., Huang, Y. H., 2009, Identification of produced powerful radicals involved in the mineralization of bisphenol A using a novel UV-$Na_2S_2O_8/H_2O_2$-Fe(II, III) two-stage oxidation process, J. Haz. Mat., 162, 1211-1216. crossref(new window)

Hua, I., Hoffmann, M. R., 1997, Optimization of ultrasonic irradiation as an advanced oxidation technology, Environ. Sci. Technol., 31, 2237-2243. crossref(new window)

Khataee, A. R., Mirzajani, O., 2010, UV/peroxydisulfate oxidation of C.I. Basic Blue 3: Modeling of key factors by artificial neural network, Desalination, 251, 64-69. crossref(new window)

Kim, S. H. Lim, M. H. Khim, J. H. 2004. A Study on the Sonolysis of Chlorinated Compounds, J. Korea Soci. Waste Manage., 21(2), 162-172.

Kommerer, K., 2003, Significance of antibiotic in the environment, J. Antimicrob. Chemother., 52, 5-7. crossref(new window)

Lau, T. K., Chu, W., Graham, N., 2005, The degradation of endocrine disruptor di-n-butyl phthalate by UV irradiation: a photolysis and product study, Chemosphere., 60, 1045-1053. crossref(new window)

Lau, T. K., Chu, W., Graham, N. J. D., 2007, The aqueous degradation of butylated hydroxyanisole by UV/$S_2O_8\;^{2-}$: study of reaction mechanism via dimerization and mineralization, ES&T., 41, 613-619. crossref(new window)

Lim, M, H., Kim, S. H., Kim, Y. U., Khim, J., 2007, Sonolysis of chlorinated compounds in aqueous solution, Ultrason. Sonochem., 14, 93-98. crossref(new window)

Li, B., Li, L., Lin, K., Zhang, W., Lu, S., Luo, Q., 2013, Removal of 1,1,1-trichloroethane from aqueous solution by a sono-activated persulfate process, Ultrason. Sonochem., 20, 855-863. crossref(new window)

Manousaki, E., Psillakis, E., Kalogerakis, N., Mantzavinos, D., 2004, Degradation of sodium dodecylbenzene sulfonate in water by ultasonic irradiation, Water Res., 38, 3751-3759. crossref(new window)

Mendez-Arriaga, F., Torres-Palma, R. A., Petrier, C., Esplugas, S., Gimenez, J., Pulgarin, C., 2008, Ultrasonic treatment of watercontaminated with ibuprofen, Water Res., 42, 4243-4248. crossref(new window)

Nachiappan, S., Muthukumar, K., 2013, Treatment of pharmaceutical effluent by ultrasound coupled with dual oxidant system, Environ. Technol., 34, 209-217. crossref(new window)

Na, S. M. Ahn, Y. Y. Cui, M. C. Cho, S. H. Khim, J. H. 2011, Degradation Characteritic of Endocrine Disruptors (DEP, NP) using Combined Advanced Oxidation Processes (AOPs), J. Environ. Sci, Inter., 20(2), 2231-2239.

Na, S. M. Cai, J. H. Shin, D. H. Cui, M. C. Khim, J. H. 2012, (a) The Study of DEP degradation properties by combination US and UV lamp of different wavelength, J. Environ. Sci, Inter., 21(7), 845-853. crossref(new window)

Na, S., Ahn, Y. G., Cui, M., Khim, J., 2012, (b) Significant diethyl phthalate(DEP) degradation by combined advanced oxidation processin aqueous solution, J. Environ. Manage., 101, 104-110. crossref(new window)

Salari, D., Daneshvar, N., Niaei, A., Aber, S., Rasoulifard, M. H., 2008, The photo-oxidative destruction of C. I. Basic yellow2 using UV/$S_2O_8\;^{2-}$ processin an annular photoreactor, J. Environ. Sci, Health Part A, 43,,657-663. crossref(new window)

Shin, D. H. Na, S. M. Cai, J. H. Khim, J. H. 2012, Effect of initial pH removal of dichloroacetonitrile in photocatalytic ozonation by using compound parabolic concentrator modules, Korean Soci. Haz. Mitiga., 12(4), 225-231. crossref(new window)

Stasinakis, A.S., Gatidou, G., Mamais, D., Thomaidis, N.S., Lekkas, T. D., 2008, Occurrence andfate of endocrine disrupters in Greek sewage treatment plants, Water Res., 42, 1796-1804. crossref(new window)

Tan, C., Gao, N., Deng, Y., Rong, W., Zhou, S., Lu, N., 2013, Degradation of antipyrine by heat activated persulfate, Sep. Purifi. Tech., 109, 122-128. crossref(new window)

Tarr, M. A., 2003, Chemical degradation methods for wastes and pollutants, Basel, Marcel Dekker, Inc., New York.

Wang, J., Pan, Z., Zhang, Z., Zhang, X., Wen, F., Ma, T., Jiang, Y., Wang, L., Xu, L., Kang, P.,2006, Sonocatalytic degradation of methyl parathion in the presence of nanometer and ordinary anatase titanium dioxide catalysts and comparison of their sonocatalytic abilities, Ultrason. Sonochem., 13, 493-500. crossref(new window)

Wang, D., Oppenlander, T., Ei-Din, M. G., Bolton, J. R., 2010, Comparison of the disinfection effects of vacuum-UV (VUV) and UV light on Bacillussubtilis pores in aqueous suspensions at 172, 222 and 254 nm, Photochem. Photobiol., 86, 176-181. crossref(new window)

Yang, S., Wang, P., Yang, X., Shan, L., Zhang, W., Shao, X., Niu, R., 2010, Degradation efficiencies of azo dye Acid Orange 7 by the interaction of heat, UV and anions with common oxidants: persulfate, peroxymonosulfate and hydrogen peoxide, J. Haz. Mat., 179, 552-558. crossref(new window)

Drinking Water Qulity Standard, 2011, Ministry of Environment, Korea.