倾斜燃料表面火焰扩散评价的相关系数

Xinyan Huang, M. Gollner
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引用次数: 35

摘要

在热厚的聚甲基丙烯酸甲酯(PMMA)板上研究了随时间变化的火焰传播过程,特别强调了火焰的燃烧行为和几何形状。点燃10厘米宽,20厘米长的样品,并允许在池和天花板燃烧之间的方向角向上扩散。火焰长度与燃料质量损失率之间的相关性表明,与传统的垂直壁火焰相比,位于燃料样品底面的火焰向湍流的过渡延迟,而这些样品顶部的火焰向湍流的过渡提前。随着燃料倾斜度的增大,火焰长度与燃料质量损失率之间的关系介于以扩散为主的层流壁羽和以对流混合为主的湍流壁羽之间。以火焰倾斜角度为特征的浮力诱导流场与先前发现的火焰锋面前的热流密度曲线的变化相对应,前者控制火焰的蔓延,后者控制燃料燃烧表面的热流密度,后者控制燃料的质量损失率。其中一些参数(如火焰和热解长度)之间的其他相关性也被表示为倾角的函数。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Correlations for Evaluation of Flame Spread over an Inclined Fuel Surface
The time-dependent flame spread process over thermally thick slabs of polymethyl methacrylate (PMMA) is investigated with particular emphasis on the burning behavior and geometry of the flame. 10 cm wide by 20 cm long samples are ignited and allowed to spread upwards at angles of orientation between pool and ceiling burning. Correlations between the flame length and the fuel mass-loss rate have revealed a delayed transition to turbulence for flames residing on the underside of fuel samples, and an earlier transition to turbulence for flames on the topside of these samples, compared to traditional vertical wall flames. As the fuel inclination increases, the relationship between the flame length and fuel mass-loss rate ranges between a recent theoretical prediction for a laminar wall plume dominated by diffusion and the traditional prediction for a turbulent wall plume dominated by convective mixing. The buoyancy-induced flow field, characterized by the flame tilt angle is shown to correspond to previously-found modifications of heat-flux profiles ahead of the flame front, which control flame spread, and the heat flux to the burning surface of the fuel, which controls fuel mass-loss rates. Other correlations between some of these parameters, such as the flame and pyrolysis lengths are also presented as a function of inclination.
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