Numerical simulations of a filament in a flowing soap film

This paper reports the computer simulation of a flapping flexible filament in a flowing soap film using the immersed boundary method. Our mathematical formulation includes filament mass and elasticity, gravity, air resistance, and the two wires that bound the flowing soap film. The incompressible vi

A numerical simulation of laryngeal flow was developed to study flow patterns and pressure and velocity waveforms in a model of the oscillating glottis. The unsteady Navier-Stokes equations were solved with a finite volume method using a nonuniform staggered grid. The numerical method was tested aga

## Abstract This paper uses the element‐free Galerkin (EFG) method to simulate 2D, viscous, incompressible flows. The control equations are discretized with the standard Galerkin method in space and a fractional step finite element scheme in time. Regular background cells are used for the quadratur

Using the Brownian dynamics simulation technique, we studied the fracture process of' DNA chains subjected to transient extensional flow>, letting the solution with DNA molecules pass through a very small orifice (radius = 0.0065 cm), thus experiencing extensional flow ofthe convergent (sinkj type.

Results are presented from a numerical simulation of three-dimensional ¯ow hydraulics around a mid-channel bar carried out using the FLUENT/UNS computational ¯uid dynamics (CFD) software package. FLUENT/ UNS solves the three-dimensional Reynolds-averaged form of the Navier±Stokes equations. Turbulen