This work is concerned with the modelling of the interaction of fluid flow with flexible solid
structures. The fluid flow considered is governed by the incompressible Navier–Stokes …

This work is concerned with the modelling of the interaction of fluid flow with flexibly
supported rigid bodies. The fluid flow considered is governed by the incompressible Navier …

We study stabilized FE approximations of SUPG type to the incompressible Navier–Stokes
problem. Revisiting the analysis for the linearized model, we show that for conforming LBB …

We consider the time/space discretization of the transient advection equation. Discretization
in space is performed by the streamline upwind Petrov–Galerkin method and in time we use …

This article outlines the research on the application of the variational multiscale theory
(VMS) to a posteriori error estimation. VMS theory was initially developed by Professor …

Staggered solution procedures represent the most elementary computational strategy for the
simulation of fluid–structure interaction problems. They usually consist of a predictor …

The advantages of using the generalised-alpha scheme for first-order systems for computing
the numerical solutions of second-order equations encountered in structural dynamics are …

We consider least-squares finite element models for the numerical solution of the non-
stationary Navier–Stokes equations governing viscous incompressible fluid flows. The paper …

We propose a stabilization method for linear tetrahedral finite elements, suitable for the
implicit time integration of the equations of nearly and fully incompressible nonlinear …

Partitioned Newton type solution strategies for the strongly coupled system of equations
arising in the computational modelling of fluid–solid interaction require the evaluation of …