Microreaction technology is preferential in process intensification and chemical synthesis,
especially in multiphase applications. A thorough understanding of the hydrodynamics and …

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 recent years, a broad range of nanocrystals have been synthesized in droplet-based
microfluidic reactors which provide obvious advantages, such as accurate manipulation …

The reaction of CO 2 and propylene oxide (PO) for the synthesis of propylene carbonate
(PC) is an important reaction, but the reaction is generally carried out under high …

The use of reactive gaseous reagents for the production of active pharmaceutical
ingredients (APIs) remains a scientific challenge due to safety and efficiency limitations. The …

Microflow reaction is important for the miniaturization of chemical devices and systems. From
an engineering perspective, excellent characteristics, including narrow residence time …

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 …

Process intensification for CO2 absorption using microreactors has received growing
interest from both academia and industry because of their great ability to overcome the mass …

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 …

This paper presents a novel unified single-field formulation for Volume-Of-Fluid simulation of
interfacial mass transfer with local volume changes. By comparison with the previous …