[1] 苏石川,郭晨宇,王亮,等.低压含KCl细水雾抑制船舶油池火特性试验研究[J].中国安全科学学报,2019,29(4):58-63. SU Shichuan,GUO Chenyu,WANG Liang,et al. Experimental research on low-pressure water mist in suppressing ship oil pool fire effectiveness with KCl [J].China Safety Science Journal,2019,29(4):58-63. [2] 庄卫强,朱顺兵,李勋.惰性气体结合细水雾抑制锂离子电池燃烧试验研究[J].中国安全科学学报,2019,29(11):51-57. ZHUANG Weiqiang,ZHU Shunbing,LI Xun. Experimental study on inhibition of lithium ion battery combustion by inert gas combined with water mist [J].China Safety Science Journal,2019,29(11):51-57. [3] 何明礼,章光,胡少华,等.火焰羽流区细水雾利用效率及控制研究[J].中国安全科学学报,2019,29(11):39-44. HE Mingli,ZHANG Guang,HU Shaohua,et al. Study on utilization efficiency and control of water mist in flame plume areas [J].China Safety Science Journal,2019,29(11):39-44. [4] 杨琦,杨慧.直线加速器间细水雾灭火系统设计与分析[J].消防科学与技术,2020,39(1):81-83. YANG Qi,YANG Hui. Design and analysis of water mist fire extinguishing system in linear accelerator room [J].Fire Science and Technology,2020,39(1):81-83. [5] 肖修昆. 基于蒸汽辅助雾化的气动式细水雾发生方法及灭火有效性模拟实验研究[D].合肥:中国科学技术大学,2011. XIAO Xiukun. Study on the atomizing mechanisms and the fire extinguishing efficiency of pneumatic-atomizing water mist generated by the steam medium [D].Hefei: University of Science and Technology of China, 2011. [6] LIU Jianghong, LIAO Guangxuan, FAN Weicheng, et al. Study of liquid pool fire suppression with water mists by cone calorimeter[J]. Journal of Fire Sciences, 2002, 20(6): 465-477. [7] HUANG X, WANG X S, LIAO G X. Characterization of an effervescent atomization water mist nozzle and its fire suppression tests[J]. Proceedings of the Combustion Institute, 2011, 33(2): 2573-2579. [8] MARGARITA D , STRIZHAK P A , GUBIN V E , et al. Method for increasing the efficiency of automatic fire extinguish system at objects of power[J]. Matec Web of Conferences, 2015, 37:01018. [9] PAIRAN M R, ASMUIN N, ISA N M, et al. Characteristic study of flat spray nozzle by using particle image velocimetry (PIV) and ANSYS simulation method[C]. Proceedings of the 7th International Conference on Mechanical and Manufacturing Engineering, Sustainable Energy Towards Global Synergy. AIP Publishing LLC, 2017, 1831(1): 020009. [10] 蔡声泽, 许超, 高琪,等. 基于深度神经网络的粒子图像测速算法 [J]. 空气动力学学报, 2019, 37(3): 455-461. CAI Shengze, XU Chao, GAO Qi, et al. Particle image velocimetry based on a deep neural network [J]. Acta Aerodynamica Sinica, 2019, 37 (3): 455-461. [11] OSHKAI P, DJILALI N. Multi-component high aspect ratio turbulent jets issuing from non-planar nozzles[J]. International Journal of Hydrogen Energy, 2019, 44(29): 15262-15277. [12] 黄明其,王亮权,何龙,等.旋翼涡环状态气动特性和参数变化的风洞试验[J].航空动力学报,2019,34(11):2305-2315. HUANG Mingqi, WANG Liangquan, HE Long, et al.Wind tunnel test of aerodynamic characteristics and parametric variation for rotor in vortex ring state[J] .Journal of Aerospace Power, 2019,34 (11): 2305-2315. [13] 阮驰,孙传东,白永林,等.水流场PIV测试系统示踪粒子特性研究[J].实验流体力学,2006,20(2):72-77. RUAN Chi, SUN Chuandong, BAI Yonglin,et al. The characteristics of the tracer particles used in water flow field for PIV system [J]. Journal of Experiments in Fluid Mechanics, 2006,20 (2): 72-77. [14] ZHU N, CHOW W K. A brief review on design and operation principle for nozzles discharging water mist[C]. 6th Asia-Oceania Symposium on Fire Science and Technology, 2004: 6c-1. [15] RASBASH D J. The extinction of fire with plain water: a review[J]. Fire Safety Science, 1986, 1: 1145-1163. [16] LORENZETTO G E , LEFEBVRE A H . Measurements of drop size on a plain jet airblast atomizer[J]. AIAA Journal, 1977, 15(7):1006-1010. [17] 曹建明,朱辉,郭广祥,等.空气助力改善液滴雾化质量的研究[J].实验流体力学,2013,27(1):56-60,87. CAO Jianming,ZHU Hui,GUO Guangxiang, et al. Study on air assistant to improve quality of droplet atomization [J]. Journal of Experiments in Fluid Mechanics,2013,27(1):56-60,87. [18] OKAMOTO K, NISHIO S, SAGA T, et al. Standard images for particle image velocimetry[J]. Measurement Science and Technology, 2000, 11(6): 685-691. [19] THIELICKE W, STAMHUIS E. PIVlab towards user friendly, affordable and accurate digital particle image velocimetry in Matlab[J]. Journal of Open Research Software, 2014, 2(1):e30. |