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建筑室内火灾温度的预测分析*
王洪欣1,2,查晓雄1
摘 要

(1 哈尔滨工业大学深圳研究生院, 深圳 518055; 2 中建科技有限公司深圳分公司, 深圳 518000)

[摘要]为了得到室内火灾温度,采用理论推导和数值模拟相结合的方法对其进行研究。首先建立了室内火灾温度场的数值模拟方法,以Steckler开口流动试验数据作为参考,对比软件FDS模拟室内火灾开口流动的准确性及适用性;其次通过火灾室内热烟气层的热平衡得到了室内火灾温度的基本公式,公式体现了影响室内温度的相关因素;最后采用火灾场分析软件FDS建立多种火灾情况模型,从而得到火灾室内热烟气层温度,进而得到基本公式中相关参数的取值。分析表明:室内火灾温度随着火源热释放速率的增加而增大,随着围护结构的有效热传递系数和通风口尺寸的增加而减小。

[关键词]室内火灾; 火灾温度; 热平衡; FDS; 预测分析

中图分类号:TU352-1文献标识码:A文章编号:1002-848X(2017)23-0046-04

 

Prediction analysis of indoor fire temperature

Wang Hongxin1,2, Zha Xiaoxiong1

(1 Harbin Institute of Technology Shenzhen Graduate School, Shenzhen 518055, China; 2 Shenzhen Branch, China Construction Science & Technology Group Co., Ltd., Shenzhen 518000, China)

Abstract:Theoretical derivation and numerical simulation method were combined to study the temperature of indoor fire. Firstly,  taking steckler open flow test data as a reference, numerical simulation method of temperature field of indoor fire was established  to compare with the accuracy and applicability of FDS simulation of indoor fire opening flow; secondly the basic formula of indoor fire temperature was obtained by heat balance of hot smoke layer in indoor fire, and the formula reflected the related factors affecting the indoor temperature; finally,  fire field analysis software FDS was used to establish a variety of fire models to get hot smoke layer temperature in indoor fire, and then the values of the relevant parameters in the basic formula were determined. The results show that the indoor fire temperature increases with the increase of the heat release rate of the fire source, and decreases with the increase of the effective heat transfer coefficient of the envelope and the size of the vent.

Keywords:indoor fire; fire temperature; heat balance; FDS; prediction analysis

 

*深圳市原创项目研发资助(YC2015020)。

 

作者简介:王洪欣,博士,高级工程师,一级注册结构工程师,Email:wanghongxin15@163.com。

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