Page 10 - 《应用声学》2022年第5期
P. 10
686 2022 年 9 月
正。而声波消烟方法的提出,更是将声波团聚技术 [10] Sarabia R F D, Gallego-Juárez J A, Acosta-Aparicio V
应用于一个新的领域中,为火灾烟雾控制领域提供 M, et al. Acoustic agglomeration of submicron particles
in diesel exhausts: first results of the influence of humidity
了新的思路和方法。本文在对声波消烟技术进行阐
at two acoustic frequencies[J]. Journal of Aerosol Science,
述的基础上,对另一种火场内常见烟雾展开实验,得 2000, 31(1): 827–828.
到的团聚效果显著。这也进一步佐证了声波消烟方 [11] 张光学, 刘建忠, 周俊虎, 等. 气溶胶微粒声波团聚技术的回
顾与展望 [J]. 热力发电, 2007, 36(11): 6–11.
法的可行性与优越性。
Zhang Guangxue, Liu Jianzhong, Zhou Junhu, et al. Re-
声波消烟方法虽在实验室的研究中取得一定 view and prospect of acoustic wave agglomeration tech-
进展,但在走向实际应用的过程中仍存在一些挑战, nology for aerosol fine particles[J]. Thermal Power Gener-
ation, 2007, 36(11): 6–11.
需要展开更多的实验研究,并在操作技术、设备上
[12] Patterson H S, Cawood W. Phenomena in a sounding
做出较大改进。若能把这些挑战一一克服,将声波 tube[J]. Nature, 1931, 127(3209): 438–438.
消烟作为一种有效控烟手段应用于实际火场中,可 [13] Mednikov E P. Acoustic coagulation and precipitation of
aerosols[J]. Applied Mechanics & Materials, 1965, 34(9):
为被困人员迅速撤离提供强有力的保障。
1087–1103.
[14] Reethof G. Acoustic agglomeration of power plant fly ash
参 考 文 献 for environmental and hot gas cleanup[J]. The Journal
of the Acoustical Society of America, 1987, 899–902(4):
[1] 张志魁. 基于 Pyrosim 和 Pathfinder 的建筑火灾数值模拟和
891–1322.
安全疏散研究 [D]. 天津: 天津理工大学, 2015.
[15] Hoffmann T L, Chen W, Koopmann G H, et al. Exper-
[2] Yuan D, Zhang G, Lin C, et al. Fast elimination of cable
imental and numerical analysis of bimodal acoustic ag-
fire smoke in underground tunnels using acoustic agglom-
glomeration[J]. Journal of Vibration & Acoustics, 1993,
eration technology[J]. Tunnelling and Underground Space
115(3): 232–240.
Technology, 2021, 117: 104154.
[16] Gallego-Juárez J A, Enrique R F D S, Rodríguez-
[3] Stefanidou M Athanaselis S, Spiliopoulou C. Health im-
Corral G, et al. Application of acoustic agglomeration
pacts of fire smoke inhalation[J]. Inhalation Toxicology,
to reduce fine particle emissions from coal combustion
2008, 20(8): 761–766.
plants[J]. Environmental Science & Technology, 1999,
[4] 杨立中, 方伟峰, 邓志华, 等. 火灾中的烟气毒性研究 [J]. 火
33(21): 3843–3849.
灾科学, 2001, 10(1): 29–33.
[17] Rodríguez-Maroto J J, Gomez-Moreno F J, Martín-
Yang Lizhong, Fang Weifeng, Deng Zhihua, et al. Study
Espigares M, et al. Acoustic agglomeration for electro-
on fire smoke toxicity[J]. Fire Safety Science, 2001, 10(1):
static retention of fly-ashes at pilot scale: influence of in-
29–33.
tensity of sound field at different conditions[J]. Journal of
[5] 刘军锋, 孙培廷, 吴桂涛. 火灾烟雾中人类生存条件模型及算
Aerosol Science, 1996, 27(S1): 621–622.
例 [J]. 大连海事大学学报, 2012, 38(1): 65–68.
[18] Capéran P, Somers J, Richter K. Acoustic agglomeration
Liu Junfeng, Sun Peiting, Wu Guitao. Models and exam-
of redispersed flyash[J]. Journal of Aerosol Science, 1995,
ples of human survival conditions in fire smoke[J]. Journal
26(1): 275–276.
of Dalian Maritime University, 2012, 38(1): 65–68.
[6] 杨雪英. 高层建筑火灾烟气蔓延规律的研究 [D]. 太原: 中北 [19] 陈厚涛, 赵兵, 徐进, 等. 燃煤飞灰超细颗粒物声波团聚清除
大学, 2015. 的实验研究 [J]. 中国电机工程学报, 2007, 27(35): 28–32.
[7] 梁清泉, 杨向晖, 梁清水. 地下建筑的防排烟设计探讨 [J]. 消 Chen Houtao, Zhao Bing, Xu Jin, et al. Experimental
防科学与技术, 2002, 21(1): 39–40. study on acoustic agglomeration of ultrafine fly ash parti-
Liang Qingquan, Yang Xianghui, Liang Qingshui. Discus- cles[J]. Proceedings of the CSEE, 2007, 27(35): 28–32.
sion on the design of smoke control in the underground [20] 张光学. 燃煤飞灰气溶胶声波团聚的理论和实验研究 [D]. 杭
building[J]. Fire Science and Technology, 2002, 21(1): 州: 浙江大学, 2010.
39–40. [21] 杨振楠, 郭庆杰, 李金惠. 气氛与湿度对燃煤飞灰颗粒声波团
[8] 王厚华, 赵喆. 机械排烟条件下建筑火灾烟流特性预测 [J]. 同 聚的影响 [J]. 化工学报, 2011, 62(4): 1055–1061.
济大学学报 (自然科学版), 2012, 40(9): 1387–1392. Yang Zhennan, Guo Qingjie, Li Jinhui. Effect of atmo-
Wang Houhua, Zhao Zhe. Prediction of smoke-flow prop- sphere and relative humidity on particle agglomeration of
erty in fire building using mechanical smoke extraction[J]. fly ash in acoustic wave[J]. CIESC Journal, 2011, 62(4):
Journal of Tongji University (Natural Science), 2012, 1055–1061.
40(9): 1387–1392. [22] 王洁. 声波团聚及联合其他方法脱除燃煤飞灰细颗粒的研
[9] 程远平, 朱国庆, 陈亮, 等. 机械加压送风防烟系统合理送风 究 [D]. 杭州: 浙江大学, 2012.
量的理论分析 [J]. 消防科学与技术, 2003, 22(2): 94–96. [23] 赵云, 董彩霞, 田章福, 等. 变截面管内燃煤烟气 PM_(2.5)
Cheng Yuanping, Zhu Guoqing, Chen Liang, et al. Theo- 声波团聚实验研究 [J]. 中国电机工程学报, 2018, 38(20):
retical analysis of the reasonable air input of mechanical 6021–6028.
ventilating and smoke protecting system[J]. Fire Science Zhao Yun, Dong Caixia, Tian Zhangfu, et al. Experi-
and Technology, 2003, 22(2): 94–96. mental research of PM2.5 removal from coal combustion
