The drag, lift and moment coefficients of differently shaped single particles have been
determined as a function of the angle of incidence at particle Reynolds numbers between …

The flow around two-dimensional cylinders at moderate Reynolds numbers has been much
studied, both for cylinders perpendicular to the flow and for cylinders yawed to the flow. In …

The periodic coupled wakes of two spheres, placed side by side in a uniform stream at low
Reynolds numbers, are studied experimentally and by Direct Numerical Simulations …

The influence of end and inflow conditions on the vortex-induced vibrations of a cylinder is
studied on the basis of wind tunnel experiments, combining measurements of the body …

We investigated experimentally the motion of elongated finite-length cylinders (length $ L $,
diameter $ d $) freely falling under the effect of buoyancy in a low-viscosity fluid otherwise at …

Flow past a circular cylinder of finite span-length with two free ends is investigated based on
direct numerical solutions of the three-dimensional unsteady incompressible Navier–Stokes …

A combination of time-resolved particle image velocimetry (PIV) and tomographic PIV was
used to study the instantaneous three-dimensional vortex shedding as well as mean …

The periodic wake of a sphere maintained in a uniform flow is experimentally characterized.
Visualizations of the vortical structures periodically shed in this regime are presented and …

This paper presents results of three-dimensional direct numerical simulations (DNS) and
global linear stability analyses of a viscous incompressible flow past a finite-length cylinder …

The flow field over a low aspect ratio (AR) circular pillar (L/D= 1.5) in a microchannel was
studied experimentally. Microparticle image velocimetry (μPIV) was employed to quantify …