Add to ORKGIn this paper I consider the self-excited rotation of an elliptical cylinder towed in a viscous fluid as a canonical model of nonlinear fluid structure interactions with possible applications in the design of sensors and energy extraction devices. First, the self-excited ellipse system is shown to be analogous to the forced bistable oscillators studied in classic chaos theory. A single variable, the distance between the pivot and the centroid, governs the system bifurcation into bi-stability. Next, fully coupled computational fluid dynam-ics simulations of the motion of the cylinder demonstrate limit cycle, period doubling, intermittently chaotic, and fully chaotic dynamics as the distance is further adjusted. The viscous wake behind the cy...
Summary Results are presented that show for a small range of flow speeds, the vortex-induced vibrati...
Chaos and orbital instability in the motion of fluid particles due to the periodic slow rotations of...
We study a self-propelling pair of steadily counter-rotating cylinders in simulations of a two-dimen...
Loosely supported cylinders subjected to cross-flow may undergo fluidelastic instability in the supp...
We study the effect of coupling an essentially nonlinear element to a sprung rigid circular cylinder...
This study investigates the nature of the dynamic response of an elastically mounted cylinder immers...
Flows with suspended particles occur in a large range of engineering applicationsand biological syst...
We investigate the effect of coupling an essentially nonlinear and dissipative attachment to a linea...
Summary. “Vortex-induced vibration ” (VIV) of a sprung cylinder is a familiar fluid-structure intera...
The response of a shell conveying fluid to harmonic excitation, in the spectral neighbourhood of one...
International audienceThis paper investigates the vortex-induced vibrations (VIV) of a spring-mounte...
The model of a two-dimensional fluid flow past a cylinder is a relatively simple problem with a stro...
We develop a chaotic control and targeting scheme to capture and stabilize a concentrated vortex aro...
We investigate the nonlinear oscillations in a free surface of a fluid in a cylinder tank excited by...
This paper investigates the flow past an elastically-mounted cylinder, constrained to oscillate in t...
Summary Results are presented that show for a small range of flow speeds, the vortex-induced vibrati...
Chaos and orbital instability in the motion of fluid particles due to the periodic slow rotations of...
We study a self-propelling pair of steadily counter-rotating cylinders in simulations of a two-dimen...
Loosely supported cylinders subjected to cross-flow may undergo fluidelastic instability in the supp...
We study the effect of coupling an essentially nonlinear element to a sprung rigid circular cylinder...
This study investigates the nature of the dynamic response of an elastically mounted cylinder immers...
Flows with suspended particles occur in a large range of engineering applicationsand biological syst...
We investigate the effect of coupling an essentially nonlinear and dissipative attachment to a linea...
Summary. “Vortex-induced vibration ” (VIV) of a sprung cylinder is a familiar fluid-structure intera...
The response of a shell conveying fluid to harmonic excitation, in the spectral neighbourhood of one...
International audienceThis paper investigates the vortex-induced vibrations (VIV) of a spring-mounte...
The model of a two-dimensional fluid flow past a cylinder is a relatively simple problem with a stro...
We develop a chaotic control and targeting scheme to capture and stabilize a concentrated vortex aro...
We investigate the nonlinear oscillations in a free surface of a fluid in a cylinder tank excited by...
This paper investigates the flow past an elastically-mounted cylinder, constrained to oscillate in t...
Summary Results are presented that show for a small range of flow speeds, the vortex-induced vibrati...
Chaos and orbital instability in the motion of fluid particles due to the periodic slow rotations of...
We study a self-propelling pair of steadily counter-rotating cylinders in simulations of a two-dimen...