870                                                                                 2021 年 11 月


                 tigation of conical bubble structure and acoustic flow  Pharmacology, 1991, 43(4): 270–271.
                 structure in ultrasonic field[J]. Ultrasonics Sonochemistry,  [10] Moussatov A, Granger C, Dubus B. Cone-like bubble for-
                 2017, 34: 164–172.                                mation in ultrasonic cavitation field[J]. Ultrasonics Sono-
              [2] Wu P, Bai L, Lin W, et al. Stability of cavitation struc-  chemistry, 2003, 10(4–5): 191–195.
                 tures in a thin liquid layer[J]. Ultrasonics Sonochemistry,  [11] Mandroyan A, Doche M L, Hihn J Y, et al. Modification
                 2017, 38: 75–83.                                  of the ultrasound induced activity by the presence of an
              [3] Saha M, Eskicioglu C, Marin J. Microwave, ultrasonic and  electrode in a sono-reactor working at two low frequen-
                 chemo-mechanical pretreatments for enhancing methane  cies (20 and 40 kHz). Part II: Mapping flow velocities
                 potential of pulp mill wastewater treatment sludge[J].  by particle image velocimetry (PIV)[J]. Ultrasonics Sono-
                 Bioresource Technology, 2011, 102(17): 7815–7826.  chemistry, 2009, 16(1): 97–104.
              [4] Liao J, Qu B, Liu D, et al. New method to enhance the  [12] Viennet R, Ligier V, Hihn J Y, et al. Visualisation and
                 extraction yield of rutin from Sophora japonica using a  electrochemical determination of the actives zones in an
                 novel ultrasonic extraction system by determining opti-  ultrasonic reactor using 20 and 500 kHz frequencies[J].
                 mum ultrasonic frequency[J]. Ultrasonics Sonochemistry,  Ultrasonics Sonochemistry, 2004, 11(3–4): 125–129.
                 2015, 27: 110–116.                             [13] Luo S Z, Zheng Y G, Li M C, et al. Effect of cavitation on
              [5] Wu P, Bai L, Lin W, et al. Mechanism and dynamics of  corrosion behavior of 20SiMn low-alloy steel in 3% sodium
                 hydrodynamic-acoustic cavitation (HAC)[J]. Ultrasonics  chloride solution[J]. Corrosion, 2003, 59(7): 597–605.
                 Sonochemistry, 2018, 49: 89–96.                [14] Frenkel V, Gurka R, Liberzon A, et al. Preliminary in-
              [6] Dominguez N, Gibiat V, Esquerre Y. Time domain topo-  vestigations of ultrasound induced acoustic streaming us-
                 logical gradient and time reversal analogy: an inverse  ing particle image velocimetry[J]. Ultrasonics, 2001, 39(3):
                 method for ultrasonic target detection[J]. Wave Motion,  153–156.
                 2005, 42(1): 31–52.                            [15] Layman C N, Sou I M, Bartak R, et al. Characteriza-
              [7] Smagowska B, Pawlaczyk-Łszczyńska M. Effects of ul-  tion of acoustic streaming and heating using synchronized
                 trasonic noise on the human body—A bibliographic re-  infrared thermography and particle image velocimetry[J].
                 view[J]. International Journal of Occupational Safety and  Ultrasonics Sonochemistry, 2011, 18(5): 1258–1261.
                 Ergonomics, 2013, 19(2): 195–202.              [16] Chouvellon M, Largillier A, Fournel T, et al. Velocity
              [8] Zhang J H, Lee T C, Lau W S, et al. Spark erosion with  study in an ultrasonic reactor[J]. Ultrasonics Sonochem-
                 ultrasonic frequency[J]. Journal of Materials Processing  istry, 2000, 7(4): 207–211.
                 Technology, 1997, 68(1): 83–88.                [17] Bai L, Xu X, Deng J, et al.  Generation and control
              [9] Tachibana K, Tachibana S. Transdermal delivery of in-  of acoustic cavitation structure[J]. Ultrasonics Sonochem-
                 sulin by ultrasonic vibration[J]. Journal of Pharmacy and  istry, 2014, 21(5): 1696–1706.