Combined optical connectivity and optical flow velocimetry measurement of interfacial velocity of a liquid jet in gas crossflow

IF 3.6 2区 工程技术 Q1 MECHANICS International Journal of Multiphase Flow Pub Date : 2023-11-01 DOI:10.1016/j.ijmultiphaseflow.2023.104581
Tianyi Wang, Yannis Hardalupas
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Abstract

Liquid jet in crossflow (LJIC) is a process in which a high-speed gas crossflow deforms and shears a continuous liquid flow into tiny droplets. This study quantifies the liquid surface motion of LJIC during the primary breakup process, which has not been quantified due to the optical limitation close to the nozzle exit. The interfacial velocity of a breaking liquid jet indicates the local interaction of the gas and liquid flows and determines the initial velocity of the stripped droplets. The local interfacial liquid velocities of LJIC have only been estimated from theoretical and computational studies, which have not been evaluated from measurements. Optical Connectivity (OC) introduces a laser beam through an atomiser nozzle and relies on total internal reflection at the liquid interface to propagate the laser light inside the continuous liquid to record the instantaneous features of the interface of the continuous liquid during the primary atomisation at the near nozzle region through imaging of the emitted fluorescent intensity from the liquid flow. The current study combines Optical Connectivity with Optical Flow Velocimetry (OFV) to quantify the time-dependent, local interfacial velocity of the liquid interface structures of the LJIC for gas Weber numbers between 14.9 - 112.6 and liquid-to-gas momentum ratios between 2.1 - 36.4. The combined OC-OFV measurements of the spatial distribution of the mean and fluctuating values of the different components of the liquid interfacial velocity of LJIC demonstrate how the gaseous shear and liquid jet geometry interact to influence the atomisation process.

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结合光连通性和光流速度法测量气体横流中液体射流的界面速度
横流液体射流(LJIC)是高速气体横流将连续的液体流变形剪切成微小液滴的过程。本研究量化了初级破碎过程中LJIC的液面运动,由于喷嘴出口附近的光学限制,这一过程尚未被量化。破碎液体射流的界面速度反映了气液流动的局部相互作用,并决定了剥离液滴的初始速度。LJIC的局部界面液体速度仅从理论和计算研究中估计,而没有从测量中评估。光学连通性(OC)通过雾化器喷嘴引入激光束,依靠液体界面处的全内反射将激光在连续液体内部传播,通过对液体流动发出的荧光强度成像,记录近喷嘴区域连续液体初级雾化过程中界面的瞬时特征。目前的研究将光学连通性和光流速度法(OFV)结合起来,量化了气体韦伯数在14.9 - 112.6之间,液气动量比在2.1 - 36.4之间时LJIC的液体界面结构的局部界面速度随时间的变化。结合OC-OFV测量LJIC液界面速度不同分量的平均值和波动值的空间分布,证明了气体剪切和液体射流几何形状是如何相互作用影响雾化过程的。
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来源期刊
CiteScore
7.30
自引率
10.50%
发文量
244
审稿时长
4 months
期刊介绍: The International Journal of Multiphase Flow publishes analytical, numerical and experimental articles of lasting interest. The scope of the journal includes all aspects of mass, momentum and energy exchange phenomena among different phases such as occur in disperse flows, gas–liquid and liquid–liquid flows, flows in porous media, boiling, granular flows and others. The journal publishes full papers, brief communications and conference announcements.
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