Gas-liquid multiphase process occupies a significant part in the chemical industry, and the
emerging gas–liquid microfluidic technology provides a highly efficient and controllable tool …

Carbon dioxide capture, utilization, and storage technology is a global topic for carbon
neutralization, and the emerging gas–liquid microreaction technology provides a promising …

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 …

In nanotechnology research, nanofluid technology contributes many applications to
engineering applications and industry, such as power generation, solar collection, heat …

Generation of bubbles in a T-junction microdevice is vital to microfluidic applications for its
advantages of easy fabrication and scaling-up, but the bubble generation in liquids with a …

Controllable regulation of gas–liquid microflow pattern and bubble size is significant to
bubble-based microfluidics, but it is hard to be realized with the existing technologies …

Gas–liquid bubbly flows in T-junction microdevices with different microstructures were
investigated in this study. Embedded capillaries were used to modify the microstructures of T …

Heretofore, the microchannel junction angle θ dependent behavior on Taylor flow with a
vertical squeezing route lacks a comprehensive understanding. An experimental study was …

Mass transfer performance is markedly improved in microchannels compared with traditional
gas–liquid chemical devices. The residence time is a crucial parameter for determining the …

The immiscible liquid-liquid two-phase flows in microchannels with 4 different inlet angles
(30°, 60°, 90°, 120°) were analyzed using numerical and experimental methods. Silicone oil …