4[2]FLINT E B, SUSLICK K S. The Temperature of Cavitation[J]. Science, 1991,(253):1 397-1 399. 被引量:1
5[3]HUA I. Sonolytic Hydrolysis of p-Nitrophenyl Acetate: the Role of Supercritical Water[J]. J Phys Chem, 1995, 99:2 335-2 342. 被引量:1
6[4]OKOUCHI S. Cavitation induced degradation of phenol by ultrasound[J]. Wat Sci Tech,1992,26:2 053-2 056. 被引量:1
7[5]PETRIER C. Characteristic of pentachlorophenate degradation in aqueous solution by means of ultrasound[J]. Environ Sci Tech, 1992, 26(8):1 639-1 642. 被引量:1
8[6]BERLAN J. Oxidative degradation of phenol in aqueous media using ultrasound[J]. Ultrason Sonochem, 1994,1(2):97-102. 被引量:1
9[7]HUA I.Optimization of ultrasonic irradiation as an advanced oxidation technology[J].Environ Sci Tech, 1997,31(8):2 237-2 243. 被引量:1
10[8]KOTRONAUROU A. Oxidation of hydrogen sulfide in aqueous solution by ultrasonic irradiation[J]. Environ Sci Tech, 1992,26:2 420-2 428. 被引量:1
7Kumar P S, Kumar M S, Pandit A, B. Experimental quantification of chemical effects of hydrodynamic cavitation[J]. Chemical Engineering Science, 2000; 55(9): 1633-1639. 被引量:1
8Pandit A, B, Joshi J B. Hydrodynamic of fatty oils:effects of cavitation[J]. Chemical Engineering Science, 1993:48(19):3440-3442. 被引量:1
9Kalumuck K M, Chahne G L, The use of cavitation jets to oxidze organic compounds in water[J], Jounal of Fluids Engineering, 2000,122(11):465-470. 被引量:1
10Vogel A ,Lanterborn W, Timm R. Optical and acoustic investigation of the dynamics of laser produce cavitation bubbles near a solid boundary [J]. Journal of Fluid Mechatronic, 1998 , 208(3) .. 209-308. 被引量:1
