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

In this paper, we present a brief overview of the phase-field-based lattice Boltzmann method
(LBM) that is a distinct and efficient numerical algorithm for multiphase flow problems. We …

We develop a phase-field multiphase lattice Boltzmann model to systematically investigate
the dynamic behaviour of a droplet passing through a microfluidic T-junction, especially …

We present an extensive analysis of the performance of the Volume of Fluid (VOF) method,
as implemented in OpenFOAM, in modeling the flow of confined bubbles and droplets …

We used volume-of-fluid (VOF) method to perform three-dimensional numerical simulations
of droplet formation of Newtonian fluids in microfluidic T-junction devices. To evaluate the …

Bubbles are always encountered for gas–liquid two-phase flow in microchannels, and have
potential applications in chemical engineering, polymer engineering, food engineering, and …

This article describes the use of embossing and “cut-and-stack” methods of assembly, to
generate microfluidic devices from omniphobic paper and demonstrates that fluid flowing …

The breakup of droplets due to creeping motion in a confined microchannel geometry is
studied using three-dimensional numerical simulations. Analogously to unconfined droplets …

Contact angle hysteresis is an important physical phenomenon omnipresent in nature and
various industrial processes, but its effects are not considered in many existing multiphase …

Microfluidic devices, which enable precise control and manipulation of fluids at the
microscale, have revolutionized various fields, including chemical synthesis and space …