Optimization of SLIPI–polarization ratio imaging for droplets sizing in dense sprays

IF 2.3 3区 工程技术 Q2 ENGINEERING, MECHANICAL Experiments in Fluids Pub Date : 2024-06-07 DOI:10.1007/s00348-024-03830-z
S. Garcia, M. Stiti, P. Doublet, C. Lempereur, M. Orain, E. Berrocal
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Abstract

In this article, structured laser illumination planar imaging and polarization ratio techniques are successfully combined to size droplets in various optically dense sprays. The polarization ratio approach is based on the acquisition of the perpendicular and parallel polarized components of Lorenz–Mie scattered light, for which the ratio is proportional to the surface mean diameter, D21. One of the main advantages of this technique, compared to some other laser imaging techniques for particle sizing, is that no fluorescent dye is required. This makes the technique suitable for characterizing sprays under evaporation conditions, such as combustion or spray drying applications. In addition, the SLIPI technique aims at suppressing the detection of multiple light scattering and at extracting the desirable single-light scattering signal. To test the reliability of this novel approach, an industrial hollow-cone nozzle is used, injecting at 50 bar water mixed with Glycerol (in the range of 0–60%). The first aim of this work is to study the experimental parameters that influence the reliability of the technique, such as the polarization orientation of the incident light, the refractive index of the injected liquid and the variation of the droplet size distribution. Using Phase Doppler Anemometry, the results show that a linear calibration is obtained for droplets ranging between 10 and 70 μm, when the incident illumination has a polarization set to 10° and 20°. In addition, this article demonstrates the feasibility of the technique for the measurement of liquids having a refractive index reaching 1.41. In the last stage of this work, after rotating the nozzle every 5°, a 3D tomographic reconstruction of D21 is performed. This demonstrates the robustness and efficiency of the technique for droplet sizing in 3D, under challenging conditions.

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优化 SLIPI 偏振比成像,确定密集喷雾中的液滴大小
本文成功地将结构化激光照射平面成像技术和偏振比技术结合起来,对各种光学致密喷雾中的液滴进行粒度测量。偏振比方法基于获取洛伦兹-米散射光的垂直和平行偏振分量,其比率与表面平均直径 D21 成正比。与其他一些用于粒度分析的激光成像技术相比,该技术的主要优点之一是不需要荧光染料。这使得该技术适用于表征蒸发条件下的喷雾,如燃烧或喷雾干燥应用。此外,SLIPI 技术旨在抑制多光散射检测,提取理想的单光散射信号。为了测试这种新方法的可靠性,我们使用了一个工业用空心锥形喷嘴,以 50 巴的压力喷射混合了甘油(0-60%)的水。这项工作的第一个目的是研究影响该技术可靠性的实验参数,如入射光的偏振方向、注入液体的折射率和液滴大小分布的变化。通过使用相位多普勒风速仪,结果表明当入射光偏振设置为 10° 和 20° 时,可对 10 至 70 μm 的液滴进行线性校准。此外,本文还证明了该技术测量折射率达到 1.41 的液体的可行性。在这项工作的最后阶段,在每 5° 旋转喷嘴后,对 D21 进行三维层析重建。这证明了该技术在具有挑战性的条件下进行三维液滴大小测量的稳健性和高效性。
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来源期刊
Experiments in Fluids
Experiments in Fluids 工程技术-工程:机械
CiteScore
5.10
自引率
12.50%
发文量
157
审稿时长
3.8 months
期刊介绍: Experiments in Fluids examines the advancement, extension, and improvement of new techniques of flow measurement. The journal also publishes contributions that employ existing experimental techniques to gain an understanding of the underlying flow physics in the areas of turbulence, aerodynamics, hydrodynamics, convective heat transfer, combustion, turbomachinery, multi-phase flows, and chemical, biological and geological flows. In addition, readers will find papers that report on investigations combining experimental and analytical/numerical approaches.
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