第 41 卷 第 6 期         庞颖钢等： 新型气流声源发声特性及其对气溶胶的团聚实验研究                                          955


                 45(5): 1028–1035.                                 cal simulation on agglomeration of ultrafine particles un-
             [19] Zhao Y, Liu C, Zhou H, et al. Experimental verification  der the effect of acoustic[J]. Journal of Northeast Electric
                 of fine particle emission reduction based on acoustic ag-  Power University, 2016, 36(3): 26–33.
                 glomeration for steel sintering flue gas[J]. IOP Conference  [24] 张光学, 刘建忠, 周俊虎, 等. 小颗粒声波团聚中碰撞效率的
                 Series: Earth and Environmental Science, 2020, 450(1):  计算及影响分析 [J]. 化工学报, 2009, 60(1): 42–47.
                 012003.                                           Zhang Guangxue, Liu Jianzhong, Zhou Junhu, et al. Sim-
             [20] Wu L, Zhang G, Yao H, et al. Study on agglomeration of  ulation and analysis of collision efficiency in acoustic ag-
                 ultrafine droplet particles by acoustic air-jet generators[J].  glomeration[J]. Journal of Chemical Industry and Engi-
                 IOP Conference Series: Materials Science and Engineer-  neering, 2009, 60(1): 42–47.
                 ing, 2020, 721: 12–26.                         [25] Shaw  D  T,  Patel  S.  Aerosol  agglomeration  in
             [21] 康豫博, 朱益佳, 蔺锋, 等. 超细颗粒物超声波团聚的影响因                  high‐intensity acoustic fields[J]. The Journal of the Acous-
                 素 [J]. 上海交通大学学报, 2016, 50(4): 551–556.            tical Society of America, 1987, 81(S1): S51.
                 Kang Yubo, Zhu Yijia, Lin Feng, et al. Influencing factors  [26] Zhang G, Zhang L, Wang J, et al.  A new model for
                 of acoustic agglomeration of ultrafine particles[J]. Journal  the acoustic wake effect in aerosol acoustic agglomeration
                 of Shanghai Jiaotong University, 2016, 50(4): 551–556.  processes[J]. Applied Mathematical Modelling, 2018, 61:
             [22] Sarohia V, Back L H. Experimental investigation of flow  124–140.
                 and heating in a resonance tube[J]. Journal of Fluid Me-  [27] Brun E. Research on the acoustic air-jet generator: a new
                 chanics, 1979, 94(4): 649–672.                    development[J]. The Journal of the Acoustical Society of
             [23] 郑建祥, 康文瑶, 吕辛桐. 超细颗粒在声波作用下团聚的数值                   America, 1957, 29(5): 573.
                 模拟 [J]. 东北电力大学学报, 2016, 36(3): 26–33.          [28] 付豪. 哈特曼哨的声场特性实验与数值研究 [D]. 保定: 华北
                 Zheng Jianxiang, Kang Wenyao, Lyu Xintong. Numeri-  电力大学, 2018.