固体燃料颗粒大小对地表火灾通过均匀植被层传播的影响

D. Morvan, A. Lamorlette
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引用次数: 5

摘要

本文的目的是研究固体燃料颗粒的大小(厚度)对热传递和表面火灾在均匀植被层中的传播所起的作用。由于固体燃料层和气相之间的所有相互作用(质量、动量和热传递)都发生在这两种介质之间的界面上,因此在分离这两相的比表面的表达式中出现的表面积体积比(SA/V)(与固体燃料颗粒的厚度成反比)必然或多或少地影响着火灾动力学。用多相公式对这一问题进行了数值研究。分析了固体燃料的温度、气体的温度、火焰停留时间以及辐射和对流的热通量等各种变量,以了解SA/V对火灾行为的作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Impact of solid fuel particle size upon the propagation of a surface fire through a homogeneous vegetation layer
The aim of this paper is to investigate the role played by the size (thickness) of solid fuel particles upon both the heat transfer and the propagation of a surface fire through a homogeneous vegetation layer. Because all the interactions (mass, momentum, and heat transfer) between the solid fuel layer and the gas phase occur at the interface between these two media, the surface area to volume (SA/V) ratio (inversely proportional to the thickness of the solid fuel particles), which appears in the expression of the specific surface separating these two phases, must affect, more or less significantly, the fire dynamics. This problem has been studied numerically, using a multiphase formulation. Various variables, such as the temperature of the solid fuel, the temperature of the gas, the fire residence time and the heat flux by radiation and convection have been analyzed, in order to understand the role played by the SA/V upon the behaviour of the fire.
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