[1] JIANG Xuepeng, LIU Meijia, WANG Jie. Study on air entrainment coeffcient of one-dimensional horizontal movement stage of tunnel fire smoke in top central exhaust[J]. Tunnelling and Underground Space Technology,2016,60:1-9. [2] TANG F, LI L J, DONG M S, et al. Characterization of buoyant flow stratification behaviors by Richardson (Froude) number in a tunnel fire with complex combination of longitudinal ventilation and ceiling extraction[J]. Applied Thermal Engineering, 2017,110: 1 021-1 028. [3] YANG D, HU L H, HUO R, et al. Experimental study on buoyant flow stratification induced by a fire in a horizontal channel[J]. Applied Thermal Engineering, 2010,30(8): 872-878. [4] 姜学鹏,陈姝,郭昆.集中排烟公路隧道临界排烟速率计算模型[J].中国安全科学学报,2017,27(10): 50-55. JIANG Xuepeng, CHEN Shu, GUO Kun. Model for prediction of critical smoke extraction rate from road tunnel with central exhaust system[J]. China Safety Science Journal,2017,27(10): 50-55. [5] COOPER L Y. An experimental study of hot layer stratification in full-scale multiroom fire scenarios[J]. Heat Transfer,1982, 104(4): 741-749. [6] HE Yaping, Fernando Anthony, LUO Mingchun, et al. Determination of interface height from measured parameter profile in enclosure fire experiment[J]. Fire Safety Journal, 1998,31(1): 19-38. [7] 李俊楠.积分比值法计算室内火灾烟气层分界面高度值的研究[J].防灾科技学院学报,2014,16(4): 20-24. LI Junnan. Study on calculation of interval height value of indoor fire smoke layer by integral ratio method[J].Journal of Institute of Disaster Prevention Science and Technology,2014,16(4): 20-24. [8] STRANG E. Entrainment and mixing in stratified shear flows[J]. Journal of Fluid Mechanics,2001,428:349-386. [9] GAO Z H, JI J, FAN C G, et al. Determination of smoke layer interface height of medium scale tunnel fire scenarios[J]. Tunnelling and Underground Space Technology,2016,56: 118-124. [10] XU Zhisheng, ZHAO Jiaming, LIU Qiulin, et al. Experimental investigation on smoke spread characteristics and smoke layer height in tunnels[J]. Fire and Materials, 2019,43(3): 303-309. [11] JI J, GAO Z H, FAN C G, et al. Large eddy simulation of stack effect on natural smoke exhausting effect in urban road tunnel fires[J].International Journal of Heat and Mass Transfer,2013,66: 531-542. [12] JI Jie, WAN Huaxian, LI Kaiyuan, et al. A numerical study on upstream maximum temperature in inclined urban road tunnel fires[J]. International Journal of Heat and Mass Transfer, 2015,88: 516-526. [13] YAO Yongzheng, LI Yingzhen, INGASON H. Numerical study on overall smoke control using naturally ventilated shafts during fires in a road tunnel[J]. International Journal of Thermal Sciences,2019,140: 491-504. [14] LI Yingzhen,LEI Bo,INGASON H. Scale modeling and numerical simulation of smoke control for rescue stations in long railway tunnels[J]. Journal of Fire Protection Engineering,2012,22(2): 101-103. [15] 邓玲.FDS场模拟计算中的网格分析[J].消防科学与技术,2006,25(2): 207-210. DENG Ling. Mesh analysis in the field modeling FDS [J].Fire Science and Technology,2006,25(2): 207-210. [16] 霍然,胡源,李元洲.建筑火灾安全工程导论: 第2版[M].合肥:中国科学技术大学出版社,2009: 114-115. [17] 郝彧露,陈俊敏,陈柯衡,等.地下换乘大厅火灾烟气温度分布研究[J].中国安全科学学报,2018,28(5): 80-85. HAO Yulu, CHEN Junmin, CHEN Keheng, et al.Study on temperature distribution of underground transfer hall fire smoke[J]. China Safety Science Journal, 2018,28(5): 80-85. |