Over the past two decades, microreactor technology has evolved to become a crucial
component in the development of process intensification. Microreactors have helped to …

Liquid-liquid extraction plays an important role in separation and purification of substance.
Miniaturized extraction processes based on microflow have received increasing attention for …

The convergence of continuous flow chemistry and microreactor technology creates
numerous possibilities towards the development of an efficient and sustainable chemical …

Liquid–liquid systems play an important role in several industrial processes. Their
separation efficiency determines the product purity and yield to a great extent. In recent …

Microreactor technology as an important means of process intensification has opened vast
opportunities for green and sustainable chemical synthesis. Over the past decade, a …

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 …

Ultrasonic microreactors were used to intensify gas‐liquid mass‐transfer process and study
the intensification mechanism. Fierce surface wave oscillation with different modes was …

The effects of ultrasound on the hydrodynamic and mass transfer behaviors of immiscible
liquid–liquid two‐phase flow was investigated in a domestic ultrasonic microreactor. Under …

Mass transfer characteristics of liquid-liquid Taylor flow with various fluid pairs are
investigated, in order to reveal the viscous effects of the fluids. The concentration pattern in …

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 …