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

Fluid–structure interaction (FSI) problems commonly encountered in engineering and
biological applications involve geometrically complex flexible or rigid bodies undergoing …

We present approaches for the study of fluid–structure interactions subject to thermal
fluctuations. A mixed mechanical description is utilized combining Eulerian and Lagrangian …

The immersed boundary method is a widely used mixed Eulerian/Lagrangian framework for
simulating the motion of elastic structures immersed in viscous fluids. In the traditional …

We present a moving control volume (CV) approach to computing hydrodynamic forces and
torques on complex geometries. The method requires surface and volumetric integrals over …

A novel full Eulerian fluid-elastic membrane coupling method on the fixed Cartesian
coordinate mesh is proposed within the framework of the volume-of-fluid approach. The …

In this article, adaptive mesh refinement (AMR) is performed to simulate flow around both
stationary and moving boundaries. The finite‐difference approach is applied along with a …

We present a specific application of the fluid-solid interface-tracking/interface-capturing
technique (FSITICT) for solving fluid-structure interaction. Specifically, in the FSITICT, we …

A numerical investigation of an Immersed Boundary (IB) model of an effectively inextensible,
finite swimmer in a Stokesian Oldroyd-B flow is presented. The swimmer model is a two …

We propose an efficient algorithm for the immersed boundary method on distributed-memory
architectures that has the computational complexity of a completely explicit method and also …