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Lorimer, J.P., Mason, T.J., 1987. Sonochemistry part 1—the physical aspects. Chem. Soc.
Rev. 16, 239–274.
Ma,J.,Song,W.,Chen,C.,Ma,W.,Zhao,J.,Tang,Y.,2005.Fentondegradationoforganiccom-
poundspromotedbydyesundervisibleirradiation.Environ.Sci.Technol.39(15),5810–5815.
Madhavan, J., SathishKumar, P.S., Anandan, S., Zhou, M., Grieser, F., Ashokkumar, M.,
2010. Ultrasound assisted photocatalytic degradation of diclofenac in an aqueous envi-
ronment. Chemosphere 80 (7), 747–752.
Martinez, N., Fernandez, J., Segura, X., Ferrer, A., 2003. Pre-oxidation of an extremely pol-
luted industrial wastewater by the Fenton’s reagent. J. Hazard. Mater. B 101 (3), 315–322.
Masomboon, N., Ratanatamskul, C., Lu, M.-C., 2009. Chemical oxidation of 2,6-dimethy-
laniline in the fenton process Env. Sci. Tech. 43 (22), 8629–8634.
Mazzarino, I., Piccinini, P., 1999. Photocatalytic oxidation of organic acids in aqueous media
by a supported catalyst. Chem. Eng. Sci. 54 (15–16), 3107–3111.
Merouani, S., Hamdaoui, O., Saoudi, F., Chiha, M., 2010. Sonochemical degradation
of Rhodamine B in aqueous phase: effects of additives. Chem. Eng. J. 158 (3), 550–557.
Moholkar, V.S., Pandit, A.B., 1997. Bubble behavior in hydrodynamic cavitation: effect of
turbulence. AIChE J. 43 (6), 1641–1648.
Moholkar, V.S., SenthilKumar, P., Pandit, A.B., 1999. Hydrodynamic cavitation for sono-
chemcial effects. Ultrason. Sonochem. 6 (1–2), 53–65.
Nagata, Y., Nakagawa, M., Okuno, H., Mizukoshi, Y., Yim, B., Maeda, Y., 2000.
Sonochemical degradationofchlorophenolsinwater.Ultrason.Sonochem.7(3),115–120.
Ollis, D.F., Pellizzetti, E., Serpone, N., 1991. Photocatalytic destruction of water contam-
inants. Environ. Sci. Technol. 25, 1522–1529.
Padoley, K.V., Saharan, V.K., Mudliar, S.N., Pandey, R.A., Pandit, A.B., 2012. Cavitation-
ally induced biodegradability enhancement of distillery waste water. J. Hazard. Mater.
219–220, 69–74.
Pang, Y.L., Abdullah, A.Z., Bhatia, S., 2011. Review on sonochemical methods in the pres-
ence of catalysts and chemical additives for treatment of organic pollutants in wastewater.
Desalination 277 (1–3), 1–14.
Papic, S., Vujevic, D., Koprivanac, N., Sinko, D., 2009. Decolourization and mineralization
of commercial reactive dyes by using homogeneous and heterogeneous Fenton and UV/
Fenton processes. J. Hazard. Mater. 164 (2–3), 1137–1145.
Patil, P.N., Gogate, P.R., 2012. Degradation of methyl parathion using hydrodynamic
cavitation: effect of operating parameters and intensification using additives. Sep. Purif.
Technol. 95, 172–179.
Petrier, C., David, B., Laguian, S., 1996. Ultrasonic degradation at 20 and 500 kHz of atra-
zine and pentachlorophenol in aqueous solutions: preliminary results. Chemosphere
32 (9), 1709–1718.
Pradhan, A.A., Gogate, P.R., 2010. Removal of p-nitrophenol using hydrodynamic cavita-
tion and Fenton chemistry at pilot scale operation. Chem. Eng. J. 156 (1), 77–82.
Ragaini, V., Selli, E., Bianchi, C.L., Pirola, C., 2001. Sono-photocatalytic degradation of
2-chlorophenol in water: kinetic and energetic comparison with other techniques.
Ultrason. Sonochem. 8 (3), 251–258.
Raut-Jadhav, S., Saharan, V.K., Pinjari, D.V., Saini, D.R., Sonawane, S.H., Pandit, A.B.,
2013. Intensification of degradation of imidacloprid in aqueous solutions by combination
of hydrodynamic cavitation with various advanced oxidation processes (AOPs) J. Env.
Chem. Eng. 1 (4), 850–857.
Ray, A.K., Beenackers, A.A.C.M., 1997. Novel swirl-flow reactor for kinetic studies of
semiconductor photocatalysis. AIChE J. 43 (10), 2571–2578.
Rodriguez, M.L., Timokhin, V.I., Contreras, S., Chamarro, E., Esplugas, S., 2003. Rate
equation for the degradation of nitrobenzene by ‘Fenton-like’ reagent. Adv. Environ.
Res. 7 (2), 583–595.

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