带腔衰荡的激光诱导白炽灯校正与比较

Randall L. Vander Wal
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引用次数: 26

摘要

激光诱导白炽灯(LII)是一种测定相对烟尘体积分数的技术,需要校准才能获得定量结果。虽然不是空间分辨的,但腔衰荡(CRD),一种基于吸收的方法,提供了沿视距的fv的综合测量。在这里,使用CRD校准来自甲烷/空气扩散火焰中煤烟的空间分辨LII信号,从而避免了当前使用的低灵敏度方法所需的外推。CRD与传统消光和路径集成LII的对比验证了其对fv测定的准确性。利用CRD,对十亿分之一(ppb) v水平的LII进行了量化。实验测试表明,在1 cm的路径长度上,单激光脉冲的CRD测量ppb烟尘体积分数水平的精度优于±5%。利用标定过的探测器特性和预定的fv电平,计算了在1064 nm波长下,激光辐照强度为0.25 J/cm2时,在层流乙烯/空气扩散火焰中产生的探测带宽405-415 nm范围内LII信号的绝对电平。该值为5×105光子/srnm / ppm的烟灰,在以LII信号峰值为中心的10ns间隔内收集。LII与CRD的比较表明,在不需要空间解析信息和/或实现高几何收集效率不切实际的应用中,CRD可能具有优势。LII的主要优势是空间解析的可视化和几何多功能性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Calibration and comparison of laser-induced incandescence with cavity ring-down

Laser-induced incandescence (LII), a technique that determines relative soot volume fraction, requires calibration to achieve quantitative results. Although not spatially resolved, cavity ring-down (CRD), an absorption-based method, provides an integreated meausre of fv along the line-of-sight. Here, spatially resolved LII signals from soot within a methane/air diffusion flame are calibrated using CRD, which avoids extrapolation required of less sensitive methods in current use. Comparison of CRD with traditional light extinction and path-integrated LII verifies its accuracy for fv determination. Using CRD, quantification of LII for parts per billion (ppb) fv levels is demonstrated. Experimental tests demonstrate the accuracy of CRD for a single laser-pulse to be better than ±5% for measurement of ppb soot volume fraction levels over a 1-cm pathlength. Using calibrated detector characteristics and a predetermined fv level, the absolute LII signal level within a detection bandwidth of 405–415 nm produced by a laser fluence of 0.25 J/cm2 at 1064 nm within a laminar ethylene/air diffusion flame was calculated. This value is 5×105 photons/srnm per ppm of soot, collected over a 10-ns interval centered at the peak of the LII signal. Comparison of LII with CRD reveals that CRD may be used to advantage in applications where spatially resolved information is not necessary and/or achieving high geometric collection efficiency is impractical LII's chief advantages are the spatially resolved fv visualization and geometric versatility.

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