Numerical fluid–structure interaction (FSI) methods have been widely used to predict the
cardiac mechanics and associated hemodynamics of native and artificial heart valves …

In this paper, we compare the heave, surge, and pitch dynamics of a submerged cylindrical
point absorber, simulated using potential flow and fully resolved computational fluid …

This paper is comprehensively reviewing various analytical models and experimental results
in the fluid-induced vibration of nonlinear plates subjected to sub and supersonic airflow …

Partitioned methods allow one to build a simulation capability for coupled problems by
reusing existing single-component codes. In so doing, partitioned methods can shorten code …

Efficient finite-difference schemes for the numerical solution of the time-dependent
equations of incompressible linear elasticity on complex geometry are presented. The …

This paper describes a novel partitioned algorithm for fluid–structure interaction (FSI)
problems that couples the motion of rigid bodies and incompressible flow. This is the first …

An efficient and accurate finite-element algorithm is described for the numerical solution of
the incompressible Navier-Stokes (INS) equations. The new algorithm that solves the INS …

Two efficient fractional-step schemes for the incompressible Navier–Stokes equations in two
and three dimensions are described. The schemes are fourth-order accurate in space and …

In this study, we propose a new immersed boundary method for compressible fluid-structure
interaction simulations. We take a partitioned coupling strategy that comprises three parts …

An analysis is made of a new partitioned scheme for solving fluid-structure interaction
problems involving viscous incompressible flow and compressible elastic-solids. The new …