Planar laser-induced fluorescence imaging of flame heat release rate

Phillip H. Paul, Habib N. Najm
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引用次数: 268

Abstract

Local heat release rate represents one of the most interesting experimental observables in the study of unsteady reacting flows. The direct measure of burning or heat release rate as a field variable is not possible. Numerous experimental investigations have relied on inferring this type of information as well as flame-front topology from indirect measures that are presumed to be correlated. A recent study has brought into question many of the commonly used flame-front marker and burning-rate diagnostics. This same study found that the concentration of formyl radical offers the best possibility for measuring flame burning rate. However, primarily due to low concentrations, the fluorescence signal level from formyl is too weak to employ this diagnostic for single-pulse measurements of turbulent-reacting flows.

In this paper, we describe and demonstrate a new fluorescence-based reaction-front imaging diagnostic suitable for single-shot applications. The measurement is based on taking the pixel-by-pixel product of OH and CH2O planar laser-induced fluorescence (PLIF) images to yield an image closely related to a reaction rate. The spectroscopic and collisional processes affecting the measured signals are discussed, and the foundation of the diagnostic, as based on laminar and unsteady flame calculations, is presented. We report the results of applying this diagnostic to the study of a laminar premixed flame subject to an interaction with an isolated line-vortex pair.

火焰放热速率的平面激光诱导荧光成像
局部热释放率是研究非定常反应流动中最有趣的实验观测值之一。直接测量燃烧速率或热释放速率作为场变量是不可能的。许多实验研究都依赖于推断这种类型的信息,以及从假定相关的间接测量中推断出的火焰前拓扑结构。最近的一项研究对许多常用的火焰前标记和燃烧速率诊断提出了质疑。同样的研究发现,甲酰自由基的浓度为测量火焰燃烧速率提供了最好的可能性。然而,主要由于浓度低,甲酰基的荧光信号水平太弱,不能用于湍流反应流的单脉冲测量。在本文中,我们描述并展示了一种新的基于荧光的反应前成像诊断,适用于单次应用。测量是基于采用OH和CH2O平面激光诱导荧光(PLIF)图像的逐像素产品,以产生与反应速率密切相关的图像。讨论了影响测量信号的光谱过程和碰撞过程,并提出了基于层流和非定常火焰计算的诊断基础。我们报告了将这种诊断应用于层流预混火焰与孤立线涡对相互作用的研究结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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