Pressure Drop and Film Thickness of Liquid-Liquid Taylor Flow in Square Microchannels

“…Comparisons of pressure drop between models and measured data. (a) Equation () (Abdollahi et al 45 ); (b) Equation () (Yue et al 51 )…”

“…Pressure drop is an essential parameter regarding the energy consumption, design and optimization of equipment in practical applications, and it plays a major role in gas–liquid two‐phase flow and mass/heat transfer. Under Taylor flow, the gas–liquid two‐phase flow pressure drop Δ P in the microchannel could be obtained based on the unit cell model, which could be regarded as the sum of three components 36,45 : where n is the number of unit cells (unit cell consists of the liquid slug and the bubble regions, see Figure 8), Δ P UC is the pressure drop of a unit cell. Three components of Δ P UC are: (a) the frictional pressure drop between the liquid slug and the channel wall, Δ P S ; (b) the pressure drop of bubble body, namely, the part of the bubbles between the end‐caps, Δ P B ; (c) Laplace pressure drop of end‐caps of the bubbles, Δ P I .…”

“…The pressure drop terms Δ P S and Δ P B are usually estimated Hagen–Poiseuille equation for fully developed laminar flow, while Δ P I is attributed to the viscous losses in the transition area between the end caps of the bubbles and the liquid film, which could be obtained by Laplace equation 49 . Abdollahi et al 45 investigated experimentally the fluid flow and pressure drop of Taylor flow in square microchannels and implemented a three‐dimensional numerical simulation, they proposed a predicting correlation of pressure drop: where C 1 is the curvature parameter. Wong et al 50 found C 1 = 3.553 for the square channel.…”

“…It could be clearly seen that the free volumes of Pressure drop is an essential parameter regarding the energy consumption, design and optimization of equipment in practical applications, and it plays a major role in gas-liquid two-phase flow and mass/ heat transfer. Under Taylor flow, the gas-liquid two-phase flow pressure drop ΔP in the microchannel could be obtained based on the unit cell model, which could be regarded as the sum of three components 36,45 :…”

Performance and pressure drop ofCO₂absorption into task‐specific and halide‐free ionic liquids in a microchannel

“…Comparisons of pressure drop between models and measured data. (a) Equation () (Abdollahi et al 45 ); (b) Equation () (Yue et al 51 )…”

“…Pressure drop is an essential parameter regarding the energy consumption, design and optimization of equipment in practical applications, and it plays a major role in gas–liquid two‐phase flow and mass/heat transfer. Under Taylor flow, the gas–liquid two‐phase flow pressure drop Δ P in the microchannel could be obtained based on the unit cell model, which could be regarded as the sum of three components 36,45 : where n is the number of unit cells (unit cell consists of the liquid slug and the bubble regions, see Figure 8), Δ P UC is the pressure drop of a unit cell. Three components of Δ P UC are: (a) the frictional pressure drop between the liquid slug and the channel wall, Δ P S ; (b) the pressure drop of bubble body, namely, the part of the bubbles between the end‐caps, Δ P B ; (c) Laplace pressure drop of end‐caps of the bubbles, Δ P I .…”

“…The pressure drop terms Δ P S and Δ P B are usually estimated Hagen–Poiseuille equation for fully developed laminar flow, while Δ P I is attributed to the viscous losses in the transition area between the end caps of the bubbles and the liquid film, which could be obtained by Laplace equation 49 . Abdollahi et al 45 investigated experimentally the fluid flow and pressure drop of Taylor flow in square microchannels and implemented a three‐dimensional numerical simulation, they proposed a predicting correlation of pressure drop: where C 1 is the curvature parameter. Wong et al 50 found C 1 = 3.553 for the square channel.…”

“…It could be clearly seen that the free volumes of Pressure drop is an essential parameter regarding the energy consumption, design and optimization of equipment in practical applications, and it plays a major role in gas-liquid two-phase flow and mass/ heat transfer. Under Taylor flow, the gas-liquid two-phase flow pressure drop ΔP in the microchannel could be obtained based on the unit cell model, which could be regarded as the sum of three components 36,45 :…”

Performance and pressure drop ofCO₂absorption into task‐specific and halide‐free ionic liquids in a microchannel

“…They also developed correlations to predict the friction factor and heat transfer rate of liquid–liquid Taylor flow. The other work of Abdollahi et al [ 18 ] developed correlations to predict the pressure drop and film thickness in square microchannels.…”

Effect of thermal boundary conditions on heat transfer performance of liquid–liquid Taylor flow through a microchannel with obstruction

Droplet generation at T-junctions in parallelized microchannels