Light sheet fluorescence microscopic imaging for high-resolution visualization of spray dynamics

IF 1.4 4区 工程技术 Q3 ENGINEERING, MECHANICAL International Journal of Spray and Combustion Dynamics Pub Date : 2018-03-01 DOI:10.1177/1756827717734078
E. Berrocal, E. Kristensson, L. Zigan
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引用次数: 12

Abstract

In this study, the use of light sheet fluorescence microscopic imaging is demonstrated for viewing the dynamic of atomizing sprays with high contrast and resolution. The technique presents several advantages. First, liquid fluorescence gives a more faithful representation of the structure of liquid bodies, droplets, and ligaments than Mie scattering does. The reason for this is that the signal is emitted by the fluorescing dye molecules inside the liquid itself and not generated at the air–liquid interfaces. Second, despite the short depth of field (∼200 µm) obtained when using the long range microscope, the contribution of out-of-focus light is much smaller on a light sheet configuration than for line-of-sight detection, thus providing more clearly sectioned images. Finally, by positioning the light sheet on the spray periphery, toward the camera objective, the effects due to multiple light scattering phenomena can be reduced to some extent. All these features provide, for many spray situations, good fidelity images of the liquid fluid, allowing the extraction of the velocity vectors at the liquid boundaries. Here, double frame images were recorded with a sCMOS camera with a time delay of 5 µs between exposures. A typical pressure-swirl atomizer is used producing a water hollow-cone spray, which was imaged in the near-nozzle region and further downstream for injection pressures between 20 bar and 100 bar. Furthermore, near-nozzle spray shape visualization of a direct-injection spark ignition injector was conducted, describing the disintegration of the liquid fuel and droplet formation. Such data are important for the validation of computational fluid dynamics models simulating liquid breakups in the near-field spray region.
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用于喷雾动力学高分辨率可视化的光片荧光显微成像
在这项研究中,演示了使用光片荧光显微成像以高对比度和分辨率观察雾化喷雾的动态。这项技术有几个优点。首先,液体荧光比Mie散射更忠实地表示了液体、液滴和韧带的结构。原因是信号是由液体内部的荧光染料分子发出的,而不是在空气-液体界面产生的。其次,尽管景深很短(~200 µm),离焦光在光片配置上的贡献比视线检测小得多,从而提供更清晰的切片图像。最后,通过将光片定位在喷雾周边上,朝向相机物镜,可以在一定程度上减少由多种光散射现象引起的影响。对于许多喷雾情况,所有这些特征都提供了液体流体的高保真度图像,从而允许提取液体边界处的速度矢量。这里,双帧图像是用sCMOS相机以5的时间延迟记录的 两次曝光之间的µs。使用典型的压力旋流雾化器产生空心锥形水喷雾,该喷雾在喷嘴附近区域和下游进行成像,喷射压力在20 bar和100 酒吧此外,对直接喷射火花点火式喷油器的近喷嘴喷雾形状进行了可视化,描述了液体燃料的分解和液滴的形成。这些数据对于验证模拟近场喷雾区域中液体破碎的计算流体动力学模型是重要的。
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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来源期刊
International Journal of Spray and Combustion Dynamics
International Journal of Spray and Combustion Dynamics THERMODYNAMICS-ENGINEERING, MECHANICAL
CiteScore
2.20
自引率
12.50%
发文量
21
审稿时长
>12 weeks
期刊介绍: International Journal of Spray and Combustion Dynamics is a peer-reviewed open access journal on fundamental and applied research in combustion and spray dynamics. Fundamental topics include advances in understanding unsteady combustion, combustion instability and noise, flame-acoustic interaction and its active and passive control, duct acoustics...
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