810                                                                                  2018 年 9 月


             [28] Raut-Jadhav S, Pinjari D V, Saini D R, et al. Inten-  of a hydrodynamic cavitation reactor using salicylic acid
                 sification of degradation of methomyl (carbamate group  dosimetry[J]. Chemical Engineering Journal, 2010, 156(1):
                 pesticide) by using the combination of ultrasonic cavi-  165–169.
                 tation and process intensifying additives[J]. Ultrasonics  [36] Franke M, Braeutigam P, Wu Z L, et al. Enhancement of
                 Sonochemistry, 2016, 31: 135–142.                 chloroform degradation by the combination of hydrody-
             [29] Thanekar P, Panda M, Gogate P R. Degradation of carba-  namic and acoustic cavitation[J]. Ultrasonics Sonochem-
                 mazepine using hydrodynamic cavitation combined with  istry, 2011, 18(4): 888–894.
                 advanced oxidation processes[J]. Ultrasonics Sonochem-  [37] Braeutigam P, Franke M, Schneider R J, et al. Degra-
                 istry, 2018, 40(A): 567.                          dation of carbamazepine in environmentally relevant con-
             [30] Čehovin M, Medic A, Scheideler J, et al. Hydrodynamic  centrations in water by hydrodynamic-acoustic-cavitation
                 cavitation in combination with the ozone, hydrogen per-  (HAC)[J]. Water Research, 2012, 46(7): 2469–2477.
                 oxide and the UV-based advanced oxidation processes for  [38] Braeutigam P. Degradation of organic micropollutants by
                 the removal of natural organic matter from drinking wa-  hydrodynamic and/or acoustic cavitation[M]. Singapore:
                 ter[J]. Ultrasonics Sonochemistry, 2017, 37: 394–404.  Springer, 2016.
             [31] Jyoti K, Pandit A. Hybrid cavitation methods for wa-  [39] Yi C, Lu Q, Wang Y, et al.  Degradation of organic
                 ter disinfection[J]. Biochemical Engineering Journal, 2003,  wastewater by hydrodynamic cavitation combined with
                 14(1): 9–17.                                      acoustic cavitation[J]. Ultrasonics Sonochemistry, 2018,
             [32] Kelkar M A, Gogate P R, Pandit A B. Intensification of es-  43: 156–165.
                 terification of acids for synthesis of biodiesel using acoustic  [40] Wu P, Bai L, Lin W, et al. Stability of cavitation struc-
                 and hydrodynamic cavitation[J]. Ultrasonics Sonochem-  tures in a thin liquid layer[J]. Ultrasonics Sonochemistry,
                 istry, 2008, 15(3): 188–194.                      2017, 38: 75.
             [33] Chatterjee D, Arakeri V H. Towards the concept of hydro-  [41] Bai L, Wu P, Liu H, et al. Rod-shaped cavitation bubble
                 dynamic cavitation control[J]. Journal of Fluid Mechanics,  structure in ultrasonic field[J]. Ultrasonics Sonochemistry,
                 1997, 332(332): 377–394.                          2018, 44: 184–195.
             [34] 贾志富. 水力空化发生器和液体动力超声换能器 [C]. 中国声               [42] Wu P, Bai L, Lin W, et al. Mechanism and dynamics of
                 学学会功率超声分会 2007 年学术年会论文集, 2007.                    hydrodynamic-acoustic cavitation (HAC)[J]. Ultrasonics
             [35] Amin L P, Gogate P R, Burgess A E, et al. Optimization  Sonochemistry, 2018, 49: 89–96.