Add to ORKGWe finally go back to the four swirl cases and see how the flow responds to either forcing m = -1 or m = -2. On the left we see the flow forced at m = -1 We see that the PVC locks onto the applied forcing also for lower swirl number causing this high TKE at the jet center. The amplification of this instability causes VB to occur at a lower swirl number. The opposite can be seen when forcing the flow at m=-2 which is basically growing in the outer shear layer causing VB to move downstream . There is no energy at the center of the vortex showing that the precessing has been damped. The mean flow is most altered at the swirl numbers were VB is unstable
This paper reports an experimental investigation on the dynamics of turbulent unconfined swirling fl...
The present experimental work is concerned with the study of amplitude dependent acoustic response o...
An experimental analysis of the Precessing Vortex Core (PVC) instability in a free swirling jet of a...
A swirling jet has been generated in water by passing the fluid through a rotating honeycomb and dis...
The mechanisms of vorticity concentration, reorientation, and stretching are investigated in a simpl...
We study the emergence of precessing vortex core (PVC) oscillations in a swirling jet experiment. We...
International audienceIn this experimental investigation, the dynamics of symmetry-breaking instabil...
Highly swirling flows are often prone to precessing instabilities, with an azimuthal wave number of ...
International audienceThe present study concerns the response of a swirling jet to various azimuthal...
This work is focused on the near-exit region of a round isothermal free swirling jet to characterize...
This study provides quantitative insight into the formation of vortex breakdown and the onset of glo...
In this study we explore the effect of buoyancy in controlling vortex breakdown (VB) in swirling jet...
This work mainly focused on the near-exit region of a round isothermal free swirling jet to characte...
Abstract The precessing vortex core (PVC) is a self-excited flow oscillation state o...
This paper concerns the study of high Reynolds and high swirl number flow through the use of PIV mea...
This paper reports an experimental investigation on the dynamics of turbulent unconfined swirling fl...
The present experimental work is concerned with the study of amplitude dependent acoustic response o...
An experimental analysis of the Precessing Vortex Core (PVC) instability in a free swirling jet of a...
A swirling jet has been generated in water by passing the fluid through a rotating honeycomb and dis...
The mechanisms of vorticity concentration, reorientation, and stretching are investigated in a simpl...
We study the emergence of precessing vortex core (PVC) oscillations in a swirling jet experiment. We...
International audienceIn this experimental investigation, the dynamics of symmetry-breaking instabil...
Highly swirling flows are often prone to precessing instabilities, with an azimuthal wave number of ...
International audienceThe present study concerns the response of a swirling jet to various azimuthal...
This work is focused on the near-exit region of a round isothermal free swirling jet to characterize...
This study provides quantitative insight into the formation of vortex breakdown and the onset of glo...
In this study we explore the effect of buoyancy in controlling vortex breakdown (VB) in swirling jet...
This work mainly focused on the near-exit region of a round isothermal free swirling jet to characte...
Abstract The precessing vortex core (PVC) is a self-excited flow oscillation state o...
This paper concerns the study of high Reynolds and high swirl number flow through the use of PIV mea...
This paper reports an experimental investigation on the dynamics of turbulent unconfined swirling fl...
The present experimental work is concerned with the study of amplitude dependent acoustic response o...
An experimental analysis of the Precessing Vortex Core (PVC) instability in a free swirling jet of a...