The interactions between incompressible fluid flows and immersed structures are nonlinear
multi-physics phenomena that have applications to a wide range of scientific and …

Multiphase chemical reactors with characteristic multiscale structures are intrinsically
discrete at the elemental scale. However, due to the lack of multiscale models and the …

In the current study, the Lattice Spring Method (LSM) is combined with the Immersed
Boundary-Lattice Boltzmann Method (IB-LBM) to investigate fluid-elastic body interaction …

The immersed boundary method is a methodology for dealing with boundary conditions at
fluid–fluid and fluid–solid interfaces. The immersed boundary method has been attracting …

A new simulation method for solving fluid–structure coupling problems has been developed.
All the basic equations are numerically solved on a fixed Cartesian grid using a finite …

A three-dimensional computational model is developed for simulating the flag motion in a
uniform flow. The nonlinear dynamics of the coupled fluid–flag system after setting up of …

The excessive computational resource requirements for direct numerical simulation (DNS)
and wall-resolved large eddy simulation (LES) make these methods intractable for …

Two-dimensional numerical simulations are used to study the coupled fluid–structure–
electric interaction of a simple model of an inverted piezoelectric flag, and to investigate the …

This paper uses a divergence-conforming B-spline fluid discretization to address the long-
standing issue of poor mass conservation in immersed methods for computational fluid …

The flap** motions of an inverted flag in a uniform flow were simulated using the
immersed boundary method. The strain energy of the inverted flag was used as an indicator …