Fluid flow applications can involve a number of coupled problems. One is the simulation of
free-surface flows, which require the solution of a free-boundary problem. Within this …

We present strategies to update the mesh as the spatial domain changes its shape in
computations of flow problems with moving boundaries and interfaces. These strategies are …

The space–time fluid–structure interaction (FSI) techniques developed by the Team for
Advanced Flow Simulation and Modeling (T★ AFSM) have been applied to a wide range of …

We discuss the stabilized finite element computation of unsteady incompressible flows, with
emphasis on the space-time formulations, iterative solution techniques and implementations …

A stabilized finite element formulation is employed to study incompressible flows past a pair
of cylinders at Reynolds numbers 100 and 1000 in tandem and staggered arrangements …

The authors describe their work on the massively parallel finite-element computation of
compressible and incompressible flows with the CM-200 and CM-5 Connection Machines …

A space-time Galerkin/least-squares finite element formulation of the Navier-Stokes
equations is presented for the analysis of free surface flows, moving spatial configurations …

The computational challenges posed by fluid–structure interaction (FSI) modeling of
parachutes include the lightness of the parachute canopy compared to the air masses …

This is an extensive overview of the core and special space–time and Arbitrary Lagrangian–
Eulerian (ALE) techniques developed by the authors' research teams for patient-specific …

A new 3D finite element flow simulation capability for fluid-particle interactions is presented
and applied to study time-dependent behavior of multiple spheres falling in a liquid-fluid …