Inertial particle microfluidics (IPMF) is an emerging technology for the manipulation and
separation of microparticles and biological cells. Since the flow physics of IPMF is complex …

Fluid-structure interaction problems (FSI) are ubiquitous in nature and industrial production.
Numerical simulation has been taken as an effective method for fluid-structure interaction …

This paper presents a study on streamline penetration, velocity error, and consequences of
a fluid–structure interaction (FSI) solver based on the feedback immersed boundary method …

This study focuses on finding high-performance numerical solutions to fluid–structure
coupling problems encountered in biomechanical engineering. A numerical framework for …

A simplified immersed boundary (IB) lattice Boltzmann method (LBM) is developed in this
study for simulating incompressible flows with heat transfer. The no-slip and constant …

The immersed boundary method (IBM) was developed for the first time in the present study
to simulate the radiative heat transfer problems in complex geometries. The pseudo time …

This paper presents an efficient three-dimensional (3D) multiphase fluid structure interaction
(FSI) model to simulate water impact of complex moving bodies in ocean engineering. This …

An in-depth understanding of inertial-focusing mechanism is significant to developing high-
throughput microfluidic devices. This paper numerically studies the forming and ordering of …

This study introduces an immersed boundary (IB) method based on coefficient array
transformations of discrete equations for local cells and local flow pattern reconstruction, for …

In the navigation of underwater robots, large ocean current disturbance often causes
significant tracking errors. To better resist ocean current disturbance, the hydrodynamic …