Computational Study of the Dynamics of the Taylor Bubble

Abstract: We perform high-resolution numerical simulations of three-dimensional dynamics of an elongated bubble in a microchannel at moderate Reynolds numbers up to 1800. For this purpose, we use the coupled Brinkman penalization and volume of fluid methods implemented in the open-source framework Basilisk. The new results are validated with available experimental data and compared with previous numerical and theoretical predictions. We extend existing results to regimes with significant inertia, which are characterized… Show more

“…The bubble nose elongates for increasing Reynolds numbers and the thin liquid film forms at increasing distance from the bubble nose. Furthermore, inertia is responsible for the appearance and growth of undulations on the liquid-gas interface, in the proximity of the bubble rear meniscus, as the Weber number of the flow exceeds a threshold value of about 0.1 [4,39,40].…”

Liquid film distribution around long gas bubbles propagating in rectangular capillaries

“…The bubble nose elongates for increasing Reynolds numbers and the thin liquid film forms at increasing distance from the bubble nose. Furthermore, inertia is responsible for the appearance and growth of undulations on the liquid-gas interface, in the proximity of the bubble rear meniscus, as the Weber number of the flow exceeds a threshold value of about 0.1 [4,39,40].…”

Liquid film distribution around long gas bubbles propagating in rectangular capillaries

Experimental and numerical study of wall phenomena of confined bubble flow in a square channel

Dynamics of long bubbles propagating through cylindrical micro-pin fin arrays