2017
DOI: 10.1016/j.ijheatmasstransfer.2017.01.040
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Experimental study of interfacial characteristics of vertical upward air-water two-phase flow in 25.4 mm ID round pipe

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Cited by 45 publications
(11 citation statements)
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“…As the flow develops, the distributions change to core-peaked. It indicates that small bubbles become larger and migrate to the center due to the net transverse forces including shear-induced lift force and wall lubrication force, as mentioned in the previous researches [3,4,6] The increase of bubble size along the flow direction is mainly due to three reasons [15]: small bubble expanses due to the pressure change, the advection effect caused by the bubble velocity change, and the bubble interactions. From the bubble velocity result, the aforementioned advection effect does not attribute to the increase of bubble void fraction or bubble size in these flow conditions as bubble velocity increases along the flow direction.…”
Section: Experimental Results Of Two-phase Profilementioning
confidence: 76%
“…As the flow develops, the distributions change to core-peaked. It indicates that small bubbles become larger and migrate to the center due to the net transverse forces including shear-induced lift force and wall lubrication force, as mentioned in the previous researches [3,4,6] The increase of bubble size along the flow direction is mainly due to three reasons [15]: small bubble expanses due to the pressure change, the advection effect caused by the bubble velocity change, and the bubble interactions. From the bubble velocity result, the aforementioned advection effect does not attribute to the increase of bubble void fraction or bubble size in these flow conditions as bubble velocity increases along the flow direction.…”
Section: Experimental Results Of Two-phase Profilementioning
confidence: 76%
“…The nature of flow regimes and the liquid fraction distribution gotten from upward and downward flows are expected to be significantly dissimilar, which has been confirmed by the conclusions of [14,15]. They concluded that the liquid fraction is presumed to be affected by the flow direction, buoyancy, and gravity force.…”
Section: Gas-liquid Upward and Downward Flowsmentioning
confidence: 76%
“…The results of these calculations are presented in Figures. 14-17, which provide a graphical interpretation of Equations ( 14)- (17). According to the authors, their placement The considerable level of the conformity between the results of the calculations and experimental data encouraged the authors to undertake a study into how the variations in viscosity along the flow path affect individual values.…”
Section: New Equations For Liquid Filmsmentioning
confidence: 99%
“…According to the authors, their placement The considerable level of the conformity between the results of the calculations and experimental data encouraged the authors to undertake a study into how the variations in viscosity along the flow path affect individual values. The results of these calculations are presented in Figures 14-17, which provide a graphical interpretation of Equations ( 14)- (17). According to the authors, their placement in the paper allows for qualitative assessment of the influence of selected quantities on the characteristic parameters of the wavy liquid film at the flow with the gaseous phase.…”
Section: New Equations For Liquid Filmsmentioning
confidence: 99%
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