Spatial Temperature Measurements in a Swirl-Stabilized Hydrogen-Air Diffusion Flame At Elevated Pressure Using Laser-Induced Grating Spectroscopy

Oussama Chaib, Lee Weller, Anthony Giles, Steve Morris, Benjamin A. O. Williams, Simone Hochgreb
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Abstract

Laser-induced grating spectroscopy (LIGS) is applied, for the first time, to a swirling non-premixed hydrogen-air flame in a high-pressure combustion facility. A portable LIGS unit is used to probe 35 different axial and radial locations in the flame and a new conditioned processing approach based on laminar flame simulation is introduced to infer temperatures from instantaneous LIGS spectra. Thermal and electrostrictive frequencies are used to produce a spatial map of temperatures in the combustor. Temperatures up to 2500 K are measured in this work, which constitute the highest temperatures ever measured using LIGS. Challenges associated with the deployment of the technique in turbulent stratified hydrogen flames are discussed, as are potential measures to overcome them, including the use of data-driven clustering techniques.
利用激光诱导光栅光谱法测量高压下漩涡稳定氢气-空气扩散火焰的空间温度
首次将激光诱导光栅光谱(LIGS)应用于高压燃烧设备中的非预混合氢气-空气漩涡火焰。使用便携式激光诱导光栅光谱仪探测了火焰中 35 个不同的轴向和径向位置,并在层流火焰模拟的基础上引入了一种新的条件处理方法,以从瞬时激光诱导光栅光谱推断温度。热频率和电致伸缩频率用于绘制燃烧器的空间温度图。在这项工作中测得的温度高达 2500 K,这是迄今为止使用 LIGS 测得的最高温度。 讨论了在湍流分层氢火焰中部署该技术所面临的挑战,以及克服这些挑战的潜在措施,包括使用数据驱动的聚类技术。
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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