Intermittent Flow Pattern on Two Phase Flow Boiling with Horizontal Microchannel

The present work reports on flow boiling visualization of refrigerant R-134a in a vertical circular channel with internal diameter of 1.33 mm and 235 mm in heated length. Quartz tube with a homogeneous ITO-coating is used allowing heating and simultaneous visualization. Flow patterns have been observed along the heated length with the aid of a digital camera with close-up lenses. From the flow boiling visualization, seven distinct two-phase flow patterns have been observed: Isolated bubbly flow, confined bubbly flow, slug flow, churn flow, slug-annular flow, annular flow, and mist flow. Two-phase flow pattern observations are presented in the form of flow pattern maps. Finally, the experimental flow pattern map is compared to models developed for conventional sizes as well as to a microscale map for air-water mixtures available in the literature, showing a large discrepancy.

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Two-Phase Flow and Heat Transfer in Rectangular Micro-Channels

Journal of Electronic Packaging ◽

10.1115/1.1756589 ◽

2004 ◽

Vol 126 (3) ◽

pp. 288-300 ◽

Cited By ~ 16

Author(s):

Weilin Qu ◽

Seok-Mann Yoon ◽

Issam Mudawar

Keyword(s):

Heat Transfer ◽

Pressure Drop ◽

Flow Pattern ◽

Two Phase Flow ◽

Flow Boiling ◽

Flow Patterns ◽

Heat Sinks ◽

Phase Flow ◽

Micro Channel ◽

Two Phase

Knowledge of flow pattern and flow pattern transitions is essential to the development of reliable predictive tools for pressure drop and heat transfer in two-phase micro-channel heat sinks. In the present study, experiments were conducted with adiabatic nitrogen-water two-phase flow in a rectangular micro-channel having a 0.406×2.032mm2 cross-section. Superficial velocities of nitrogen and water ranged from 0.08 to 81.92 m/s and 0.04 to 10.24 m/s, respectively. Flow patterns were first identified using high-speed video imaging, and still photos were then taken for representative patterns. Results reveal the dominant flow patterns are slug and annular, with bubbly flow occurring only occasionally; stratified and churn flow were never observed. A flow pattern map was constructed and compared with previous maps and predictions of flow pattern transition models. Features unique to two-phase micro-channel flow were identified and employed to validate key assumptions of an annular flow boiling model that was previously developed to predict pressure drop and heat transfer in two-phase micro-channel heat sinks. This earlier model was modified based on new findings from the adiabatic two-phase flow study. The modified model shows good agreement with experimental data for water-cooled heat sinks.

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Heat transfer and flow pattern during two-phase flow boiling of R-134a in horizontal smooth and microfin tubes

International Journal of Refrigeration ◽

10.1016/s0140-7007(01)00075-5 ◽

2002 ◽

Vol 25 (6) ◽

pp. 789-798 ◽

Cited By ~ 42

Author(s):

Ming-huei Yu ◽

Tsun-kuo Lin ◽

Chyuan-chyi Tseng

Keyword(s):

Heat Transfer ◽

Flow Pattern ◽

Two Phase Flow ◽

Flow Boiling ◽

Phase Flow ◽

Two Phase ◽

R 134A ◽

Microfin Tubes

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Flow Boiling in Horizontal Tubes: Part 1—Development of a Diabatic Two-Phase Flow Pattern Map

Journal of Heat Transfer ◽

10.1115/1.2830037 ◽

1998 ◽

Vol 120 (1) ◽

pp. 140-147 ◽

Cited By ~ 263

Author(s):

N. Kattan ◽

J. R. Thome ◽

D. Favrat

Keyword(s):

Flow Pattern ◽

Two Phase Flow ◽

Flow Boiling ◽

Phase Flow ◽

Two Phase ◽

Flow Parameters ◽

Horizontal Tubes ◽

Flow Pattern Map ◽

Wide Range ◽

Data Points

An improved two-phase flow pattern map is proposed for evaporation in horizontal tubes. The new map was developed based on flow pattern data for five different refrigerants covering a wide range of mass velocities and vapor qualities. The new map is valid for both adiabatic and diabatic (evaporating) flows and accurately identifies about 96 percent of the 702 data points. In addition, the new flow pattern map includes the prediction of the onset of dryout at the top of the tube during evaporation inside horizontal tubes as a function of heat flux and flow parameters.

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Flow Boiling Visualization of R-134a in a Vertical Channel of Small Diameter

Journal of Heat Transfer ◽

10.1115/1.4000012 ◽

2010 ◽

Vol 132 (3) ◽

Cited By ~ 32

Author(s):

Claudi Martín-Callizo ◽

Björn Palm ◽

Wahib Owhaib ◽

Rashid Ali

Keyword(s):

Flow Pattern ◽

Annular Flow ◽

Two Phase Flow ◽

Flow Boiling ◽

Bubbly Flow ◽

Flow Patterns ◽

Phase Flow ◽

Two Phase ◽

R 134A ◽

Heated Length

The present work reports on flow boiling visualization of refrigerant R-134a in a vertical circular channel with an internal diameter of 1.33 mm and 235 mm in heated length. A quartz tube with a homogeneous Indium Tin Oxide coating is used to allow heating and simultaneous visualization. Flow patterns have been observed along the heated length with the aid of high-speed complementary metal oxide semiconductor (CMOS) digital camera. From the flow boiling visualization, seven distinct two-phase flow patterns have been observed: isolated bubbly flow, confined bubbly flow, slug flow, churn flow, slug-annular flow, annular flow, and mist flow. Two-phase flow pattern observations are presented in the form of flow pattern maps. The effects of the saturation temperature and the inlet subcooling degree on the two-phase flow pattern transitions are elucidated. Finally, the experimental flow pattern map is compared with models developed for conventional sizes as well as to a microscale map for air-water mixtures available in literature, showing a large discrepancy.

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Measurements and flow pattern visualizations of two-phase flow boiling in single channel microevaporators

International Journal of Multiphase Flow ◽

10.1016/j.ijmultiphaseflow.2012.01.009 ◽

2012 ◽

Vol 42 ◽

pp. 52-61 ◽

Cited By ~ 30

Author(s):

Elmer Galvis ◽

Richard Culham

Keyword(s):

Flow Pattern ◽

Two Phase Flow ◽

Single Channel ◽

Flow Boiling ◽

Phase Flow ◽

Two Phase

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Void Fraction, Pressure Drop, and Flow Pattern Behavior for Two-Phase Non-Newtonian Slug Flow

10.1115/omae2021-62513 ◽

2021 ◽

Author(s):

Faraj Ben Rajeb ◽

Syed Imtiaz ◽

Yan Zhang ◽

Amer Aborig ◽

Mohamed M. Awad ◽

...

Keyword(s):

Pressure Drop ◽

Flow Pattern ◽

Flow Regime ◽

Void Fraction ◽

Slug Flow ◽

Two Phase Flow ◽

Flow Patterns ◽

Intermittent Flow ◽

Phase Flow ◽

Two Phase

Abstract Slug flow is one of the most common flow patterns in non-Newtonian two-phase flow in pipes. It is a very common occurrence in gas-liquid two-phase flow in the pipe. Usually, it is an unfavorable flow pattern due to its unsteady nature, intermittency as well as high pressure drop. The differences between slug flow and elongated bubble flow are not clear because usually these two types of flow combined under one flow category. In general, these two-phase flow regimes are commonly defined as intermittent flow. In the present study, pressure gradient, and wave behavior in slug flow have been investigated depending on experimental work. In addition, void fraction has been estimated regarding available superficial liquid and gas velocities. The experimental records of superficial velocities of gas and liquid for slug flow and other flow patterns is used to create flow regime map for the gas non-Newtonian flow system. The effect of investigated flow regime velocities for non-Newtonian/gas flow on pressure drop and void fraction is reported. Pressure drop has been discovered to be reduced in slug flow more than other flow patterns due to high shear thinning behavior.

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