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凝并作用下火灾烟颗粒粒径分布及变化 被引量:11

Fire Smoke Particle Size Distribution Evolution Under Brownian Coagulation
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摘要 预测火灾烟颗粒粒径分布特征参数的动态变化可实现探测系统对环境参数响应的动态模拟.顶棚烟气输运中,烟颗粒的布朗凝并是改变粒径分布的主要过程,应用矩方法求解布朗凝并作用下对数正态颗粒粒径分布的烟颗粒非线性凝并方程,得到随燃烧变化的凝并速率下粒径分布特征参数随时间的计算结果.正庚烷试验火烟颗粒分布的计算预测值与实验测量值相近,结果表明,在烟雾浓度快速上升阶段,烟颗粒凝并造成颗粒浓度损失不明显,几何平均粒径变化很小,而燃烧基本结束后,烟颗粒数密度衰减很快. It is needed to predict evolution of smoke particle size distribution characteristics for simulating response of smoke detection system. At the ceilling smoke transport, Brownian coagulation is the dominant dynamic process for broadening the smoke particle size distribution. The experimental results of standard test fires indicate that the fire smoke particle size distribution fits to lognormal distribution. Applying moment method to solve the non-linear coagulation equation of fractal smoke aggregation with a log-normal size distribution,and combining fire dynamic simulator (FDS), can caculated the change of smoke particle distribution characteristics with various coagulation rates. In the simulation of smoke aggregation distribution of heptane test fire (TFS) at standard test room, coagulation effect on the smoke particle number concentration loss and the geometric mean particle size increment is not obvious during the smoke concentration rising. But after the fire burns out, the particle number concentration decays sharply.
作者 马绥华 张永明 方俊 祝玉泉 蒋亚龙 王进军 袁宏永
机构地区 中国科学技术大学火灾科学国家重点实验室 清华大学公共安全研究中心
出处 《燃烧科学与技术》 EI CAS CSCD 北大核心 2007年第2期147-151,共5页 Journal of Combustion Science and Technology
基金 国家自然科学基金资助项目(50476023)
关键词 火灾烟颗粒 粒径分布 凝并 火灾动力学模拟 数值预测 fire smoke particle size distribution coagulation fire dynamic simulator (FDS) numerical prediction
分类号 X928.7 [环境科学与工程—安全科学]
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参考文献10

  • 1Butler Kathryn M,Mulholland George W.Generation and transport of smoke components[J].Fire Technology,2004,40:149-176.
  • 2Ierardi James A,Barnett Jonathan R.A methodology for predicting smoke detector response[C]//Performance-based Codes and Fire Safety Cesign Methods,4th International Conference.Melbourne,Australia,2002:235-240.
  • 3Farouk B,Mulholland G W,MeGrattan K B,et al.Simulation of smoke transport and coagulation for a standard test fire[C]//12th International Conference on Automatic Fire Detection.Gaithersburg,MD,AUBE,2001:482-493.
  • 4Baum Howard R,Rehm Ronald G,Mulholland George W.Computation of fire induced flow and smoke coagulation[C]//19th International Symposium on Combustion.Washington,1982:921-931.
  • 5NIsT.Fire Dynamics Simulator:Technical Reference Guide[M].Gaitherburg,USA,2003.
  • 6Sheldon K.Smoke Dust and Haze Fundamentals of Aerosol Dynamics[M].New York:Oxford University Press,2000.
  • 7Vemury Srinivas,Pratsinis Sotiris E.Self-preserving size distributions of agglomerates[J].Journal of Aerosol Science,1995,26(2):175-185.
  • 8Fang Jun.Self-preserving size distribution of fire soot fractal coagulation in flaming combustion[J].Journal of Fire Sciences,2004,22(1):53-68.
  • 9Koylu U O,Faeth G M.Optical properties of soot in buoyant laminar diffusion flames[J].Journal of Heat Transfer,1994,11(6):971-979.
  • 10Tewarson A.The SFPE Handbook of Fire Protection Engineering[M].Quincy,MA:National Fire Protection Association,2002.

同被引文献64

引证文献11

二级引证文献24

燃烧科学与技术
2007年 第2期

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