Over the past decades, Taylor flow has got an increasing interest due to its potential to
intensify reaction processes with fast kinetics which are usually controlled by mass transfer …

Microreaction technology is an important technology for process intensification and high
efficient chemical synthesis. The use of ionic liquids (ILs) as novel reaction media is another …

There is a rapid movement towards miniaturization in the field of micro-electronics, medical,
defence, and space applications as well as an increase in thermal load density in the field of …

Considering the rheological constitutive model and flow-control equation of the fluid around
a Taylor bubble in an annulus, a prediction model of the flow field around the Taylor bubble …

Gas-liquid-liquid flow in microreactors holds great potential towards process intensification
of operation in multiphase systems, particularly by a precise control over the three-phase …

Mass transfer in non-reactive gas–liquid Taylor flow has been studied at the unit cell scale
with high resolution non-invasive experimental techniques for a large variety of …

Characteristics of gas-liquid Taylor flow with different liquid viscosities are investigated in a
rectangular microchannel, aiming at providing knowledge and aid in the design of …

In this study, we used a nano-ozone bubble to enhance the efficiency of the ozone/H 2 O 2
process for the degradation of tetramethylammonium hydroxide (TMAH) found in …

New theoretical approach to model Gas-Liquid and Gas-Liquid-Solid mass transfer for two-
phase Taylor flows in milli and microchannels is proposed. The main idea of the proposed …

An experimental investigation of mass transfer between bubbles, slugs and lubrication films
is performed by means of optical techniques for air–water Taylor flows in a 3 mm glass …