Computer Vision Algorithm for Characterization of a Turbulent Gas–Liquid Jet

IF 2.1 Q2 ENGINEERING, MULTIDISCIPLINARY Inventions Pub Date : 2024-01-04 DOI:10.3390/inventions9010009
I. Starodumov, Sergey Sokolov, Pavel Mikushin, M. Nikishina, Timofey Mityashin, Ksenia Makhaeva, F. Blyakhman, Dmitrii Chernushkin, I. Nizovtseva
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Abstract

A computer vision algorithm to determine the parameters of a two-phase turbulent jet of a water-gas mixture traveling at a velocity in the range of 5–10 m/s was developed in order to evaluate the hydrodynamic efficiency of mass exchange apparatuses in real time, as well as to predict the gas exchange rate. The algorithm is based on threshold segmentation, the active contours method, the regression of principal components method, and the comparison of feature overlays, which allows the stable determination of jet boundaries and is a more efficient method when working with low-quality data than traditional implementations of the Canny method. Based on high-speed video recordings of jets, the proposed algorithm allows the calculation of key characteristics of jets: the velocity, angle of incidence, structural density, etc. Both the algorithm’s description and a test application based on video recordings of a real jet created on an experimental prototype of a jet bioreactor are discussed. The results are compared with computational fluid dynamics modeling and theoretical predictions, and good agreement is demonstrated. The presented algorithm itself represents the basis for a real-time control system for aerator operation in jet bioreactors, as well as being used in laboratory jet stream installations for the accumulation of big data on the structure and dynamic properties of jets.
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表征湍流气液射流的计算机视觉算法
为了实时评估质量交换设备的流体动力学效率以及预测气体交换率,我们开发了一种计算机视觉算法,用于确定速度在 5-10 米/秒范围内的水气混合物两相湍流射流的参数。该算法基于阈值分割法、主动等值线法、主成分回归法和特征叠加比较法,可以稳定地确定射流边界,在处理低质量数据时比传统的 Canny 方法更有效。基于喷流的高速视频记录,所提出的算法可以计算出喷流的主要特征:速度、入射角、结构密度等。本文讨论了该算法的说明以及基于在喷射生物反应器实验原型上创建的真实喷射视频记录的测试应用。结果与计算流体动力学建模和理论预测进行了比较,结果表明两者具有良好的一致性。所介绍的算法本身就是喷射生物反应器中曝气器运行实时控制系统的基础,也可用于实验室喷射流装置,积累有关喷射结构和动态特性的大数据。
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
Inventions
Inventions Engineering-Engineering (all)
CiteScore
4.80
自引率
11.80%
发文量
91
审稿时长
12 weeks
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