Carbon capture, utilization, and storage (CCUS) is a crucial strategy for achieving CO 2
emission reduction targets and mitigating the impacts of global warming and climate …

Two-phase liquid-gas Taylor flow triggered by blocking-squeezing mechanism was studied
with different junction angle θ microchannels, ie 20°, 45°, 90°, 135° and 160°, at various …

Numerical and experimental studies were carried out for the analysis of hydrodynamics and
volumetric mass transfer coefficient (kLa) in a cross-T junction microchannel for gas–liquid …

With recent advances in semiconductor technology, conventional cooling methods and
standard coolants are no longer adequate to manage electronic chips' enormous heat …

Recently, slug-flow crystallizers have been proposed for controlling the product quality and
generating uniform crystals. However, there is still a lack of understanding of the residence …

Abstract A three-dimensional (3D) numerical simulation of a two-phase flow liquid/liquid is
performed in a rectangular microchannel with a T-junction. The volume of fluid (VOF) …

This paper presents a numerical simulation of the tunneling rupture behavior of bubbles in
microchannels using OpenFOAM. The fluid properties were characterized by the Giesekus …

The flow characteristics of gas and non-Newtonian fluid in a rectangular T-microchannel
with cross section of 150 μm× 50 μm are experimentally studied. Four flow patterns are …

Characteristics of gas–liquid flow and heat transfer in a cross-flow T-junction microchannel
with wettability-engineered walls are numerically investigated in this paper. The validated …

This paper investigates numerically the characteristics of gas–liquid sliding Taylor flow in a
two-dimensional (2D) T-junction rectangular microchannel having both inlets perpendicular …