|本期目录/Table of Contents|

[1]秦挺鑫,薛淑艳.单跑楼梯井内火灾过程的数值模拟[J].中国安全生产科学技术,2009,5(6):33-37.
 QIN Ting xin,XUE Shu yan.Numerical simulation of the fire in a singlerun stairwell[J].JOURNAL OF SAFETY SCIENCE AND TECHNOLOGY,2009,5(6):33-37.
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单跑楼梯井内火灾过程的数值模拟()
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《中国安全生产科学技术》[ISSN:1673-193X/CN:11-5335/TB]

卷:
5
期数:
2009年6
页码:
33-37
栏目:
出版日期:
2009-12-31

文章信息/Info

Title:
Numerical simulation of the fire in a singlerun stairwell
文章编号:
1673-193X(2009)-06-0033-05
作者:
秦挺鑫1薛淑艳2
1.中国标准化研究院2.清华大学航天航空学院
Author(s):
QIN Tingxin1XUE Shuyan2
1.China National Institute of Standardization2.Tsinghua University
关键词:
火灾单跑楼梯井大涡模拟
Keywords:
fire singlerun stairwell large eddy simulation
分类号:
X932
DOI:
-
文献标志码:
A
摘要:
针对单跑楼梯井内的火灾过程,采用大涡模拟方法,通过改变单跑楼梯井顶层门的面积,探讨了门面积的改变对楼梯井内火灾过程中空气卷吸量、排烟量、楼梯井内平均氧气浓度以及楼梯井内外压差的影响,分析了火灾烟气流动的动力学特征。研究结果表明,随着单跑楼梯井门开口面积的增加,空气卷吸量和排烟量均增加,井内平均氧气浓度增加而井内外压差逐渐降低。计算结果显示,在火灾场景中,当单跑楼梯井顶层门面积较小时,以上物理量对门高度的变化更为敏感。
Abstract:
Using LES method, this paper aims to investigate the impact that the changes in the top gate area of singlerun stairwell have on the volumes of entrained air and exhaust smoke, the average oxygen concentration in the stairwell and pressure difference between inside and outside of the stairwell in the fire process, and analyze the characteristics of smoke flow in stairwell fire in accordance with the fire process in the singlerun stairwell. The study findings indicate that with the top gate area of singlerun stairwell increasing, the volumes of entrained air and exhaust smoke volumes and the average oxygen concentration in the stairwell increase respectively while the pressure difference between the outside and inside of the stairwell gradually decreases. The calculation results show that in a fire scene the above physical quantities are more sensitive to the changes of the gate height.

参考文献/References:

[1]H. E. Feustel. C. H. Zuercher. R. Diamond. B. Dickinson. D. Grimsrud and R. Lipschutz, Temperature and wind induced air flow patterns in a staircase computer modeling and experimental verification. Energy Buildings,1985,8:105~122.[2]S. B. Riffat. J. Walker and J. Litter, Zone to zone tracer gas measurements laboratory calibration and values of air flows up and down stairs in houses. Proceedings of the 9th AIVC Conference,1988,85~101.[3]R. Edwards and C. Irwin. Twodirectional air movements in stairwells. 11th AIVC Conference,1990,21:379~388.[4]A. S. Zohrabian. M. R. MokhtarzadehDehghan and A. J. Reynolds. Buoyancydriven air flow in a closed halfscale stairwell model:velocity and temperature measurements. 10th AIVC Conference,1989.[5]A. S. Zohrabian. M. R. MokhtarzadehDehghan and A. J. Reynolds. Buoyancydriven air flow in a stairwell model with throughflow. Energy Buildings,1990,14:133~142.[6]A. S. Zohrabian. M. R. MokhtarzadehDehghan. A. J. Reynolds and B. S. T. Marriott, An experimental study of buoyancydriven flow in a halfscale stairwell model, Building Envir.,1989,24(2):141~148.[7]A. A. Peppes. M. Santamouris and D. N. Asimakopoulos, Buoyancydriven flow through a stairwell, Building and Environment,2001,36:167~180.[8]A. A. Peppes. M. Santamouris and D. N. Asimakopoulos, Experimental and numerical study of buoyancydriven stairwell flow in a three storey building, Building and Environment,2002,37:497~506.[9]N. R. Marshall. The behaviour of hot gases flowing within a staircase. Fire Safety J,1985,1985,9:245~255.[10]S. ErginOzkan. M. R. MokhtarzadehDehghan and A. J. Reynolds, The effect of different air inlet sizes on the air flow through a stairwell. Indoor Evir.,1993,2(5/6):350~359.[11]S. ErginOzkan. M. R. MokhtarzadehDehghan and A. J. Reynolds, Experimental study of natural convection between two compartments of a stairwell, Heat Mass Transfer,1995,38:2159~2168.

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备注/Memo

备注/Memo:
收稿日期:2009-06-23作者简介:秦挺鑫,男,助理研究员。
更新日期/Last Update: