段塞流型的高频流量测量技术

Proceedings of the 8th World Congress on Mechanical, Chemical, and Material Engineering Pub Date : 2022-08-01 DOI:10.11159/htff22.144

Seyyed Saeed Shojaee Zadeh, V. Egan, P. Walsh

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引用次数: 0

摘要

为了在段塞流状态下获得准确的段塞长度和速度，监测液滴/气泡序列是必不可少的阶段，需要使用适当的技术。在大多数实验中，传统的测量仪器包括一个高速相机和一个显微镜，用来表征微通道中的流动。然而，当使用这些技术时，由弯曲的通道壁引起的光学畸变会导致很大的测量不确定度，从而影响测量精度。在这方面，本研究介绍了一种简便、可靠地测量段塞长度和速度的新技术。这种自动化的非侵入式测量技术允许在线高频液滴/气泡检测和基于液-液或液-气流动中相移引起的光强度变化的相关物理性质。

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High Frequency Flow Measurement Technique for Slug Flow Regimes

– To achieve accurate slug lengths and velocities in slug flow regime, monitoring of the droplet/bubble train is an essential stage which necessitates the use of proper techniques. In most experiments, the traditional measurement apparatus consists of a high-speed camera coupled to a microscope which are employed to characterize such flows in microchannels. However, when using these techniques, optical distortion caused by the curved channel walls can result in large measurement uncertainty which undermines the measurement accuracy. In this regard, this study introduces a novel technique to easily and reliably measure the slug length and velocity. This automated non-intrusive measurement technique allows in-line high-frequency of droplet/bubble detection and related physical properties based on changes in the light intensity caused by a phase shifting in liquid-liquid or liquid-gas flows.

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Proceedings of the 8th World Congress on Mechanical, Chemical, and Material Engineering

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