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Journal of Engineering Thermophysics

Erschienen in:

01.10.2021

Influence of Liquid Properties on Gas-Liquid Flow Regimes and Pressure Drop in a Flat Microchannel

verfasst von: F. V. Ronshin, Yu. A. Dementyev

Erschienen in: Journal of Engineering Thermophysics | Ausgabe 4/2021

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Abstract

An urgent problem at the moment is to study various microchannel systems owing to the trend of miniaturization of devices. The present study is aimed at investigating the properties of the working liquid on the regimes of a two-phase flow and pressure drop in a flat microchannel 130 \(\mu\)m high. The high-speed schlieren method is used for visualization of fast processes that occur in the microchannel. It is shown that the working liquid properties and microchannel wall wettability produce a significant effect on the two-phase flow regimes and transitions between them. Regions of jet, bubble, and churn flow regimes are observed at identical Weber numbers of the liquid and gas for different working liquids. The hydraulic resistance of various working liquids is studied. It is demonstrated that drastic jumps with an increase in the superficial gas velocity are observed for water during the transition to the churn flow regime. This feature is associated with washout of dry spots with an increase in the superficial liquid velocity owing to a significant effect of the hysteresis of the contact angle of wetting.

Vorheriger Artikel Evaporation of a Droplet of a Heated Colloid Solution on a Horizontal Structured Wall

Nächster Artikel On Self-Similar Decay of a Plane Momentumless Turbulent Wake

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Titel: Influence of Liquid Properties on Gas-Liquid Flow Regimes and Pressure Drop in a Flat Microchannel
verfasst von: F. V. Ronshin
Yu. A. Dementyev
Publikationsdatum: 01.10.2021
Verlag: Pleiades Publishing
Erschienen in: Journal of Engineering Thermophysics / Ausgabe 4/2021
Print ISSN: 1810-2328
Elektronische ISSN: 1990-5432
DOI: https://doi.org/10.1134/S1810232821040093

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