Bubbly flow is a prototypical two-phase flow problem. The dynamic behavior of bubbles
within a reactor is intrinsically linked to their transport, distribution, and mass transfer, all of …

Boiling heat transfer in microchannels has been a very hot topic in heat transfer research
over the past two decades, fuelled by the dramatic need for high heat flux cooling of …

Turbulent flows laden with large, deformable drops are ubiquitous in nature and in a wide
range of industrial processes. Prediction of the interactions between drops, which deform …

Manifold microchannels (MMC) are regarded as an efficient thermal management technique
for electronic devices. However, research on optimizing the channel configuration of heat …

Phase transition in an irregular domain is a common phenomenon in the natural world. In
this study, we develop novel linear, temporally first-and second-order accurate, and …

This paper proposes an unconditionally energy stable method for incompressible heat
conductive fluids under the phase–field framework. We combine the complicated system by …

Lattice Boltzmann method (LBM), a mesoscopic approach for numerical simulation of flow
and thermal fields, is increasingly being applied to solve multiphase problems. The present …

Physics-informed neural networks (PINNs) are proved methods that are effective in solving
some strongly nonlinear partial differential equations (PDEs), eg, Navier-Stokes equations …

This study presents a novel pressure-based methodology for the efficient numerical solution
of a four-equation two-phase diffuse interface model. The proposed methodology has the …

In phase field methods based on a second‐order Allen‐Cahn (AC) equation, contact angles
are prescribed mostly via a geometric formulation. However, it is of great interest to utilize …