Add to ORKGThe interaction between two identical elliptic vortex rings were simulated using Large Eddy Simulation in this numerical study for two different scenarios. One with the major axes initially aligned and another with an azimuthal angle offset between their major axes. Results show that a head-on collision without an azimuthal offset produced a pair of sub-elliptic that propagated apart orthogonal to the direction of the initial direction of travel. When initiated with 90 degrees offset in the azimuthal angle, the collision generated a pair of elongated sub-elliptic that also travelled apart perpendicularly on the other axis. The sub-elliptic ring subsequently further split into tertiary rings. These findings may provide insights on certain in...
The interaction of two vortex rings in an inviscid fluid is investigated numerically using a Lagrang...
International audienceThe head-on collision of two vortex rings can produce diverse phenomena: a tia...
Vortex ring collision on wall explains azimuthal instability, stretching, vorticity and wall turbule...
In this study, vortex behaviour near to complex geometry was investigated experimentally and numeric...
Large Eddy Simulations (LES) involving the head-on impingement of vortex rings upon round cylinders ...
The head-on collision process of elliptic vortex rings was experimentally investigated using flow-vi...
AbstractA vortex ring impacting a three-dimensional circular cylinder is studied using large eddy si...
This report documents and discusses the findings of an experimental study conducted to shed light on...
In this work, we investigate the motion, interaction, and simultaneous collision between many initia...
This paper reports upon a numerical study on the leapfrogging of two elliptical vortex rings at Re=2...
The article of record as published may be found at http://dx.doi.org/10.1017/S0022112008002632This s...
Ce mémoire présente les résultats des simulations numériques directes réalisées sur des anneaux vort...
Interaction of vortex rings moving in the same direction along a common axis is investigated using a...
Experimental studies were carried out on the interaction of two vortex rings moving parallel side by...
In this report, coaxial circular and elliptical vortex rings at AR=3 were simulated with OpenFOAM 2....
The interaction of two vortex rings in an inviscid fluid is investigated numerically using a Lagrang...
International audienceThe head-on collision of two vortex rings can produce diverse phenomena: a tia...
Vortex ring collision on wall explains azimuthal instability, stretching, vorticity and wall turbule...
In this study, vortex behaviour near to complex geometry was investigated experimentally and numeric...
Large Eddy Simulations (LES) involving the head-on impingement of vortex rings upon round cylinders ...
The head-on collision process of elliptic vortex rings was experimentally investigated using flow-vi...
AbstractA vortex ring impacting a three-dimensional circular cylinder is studied using large eddy si...
This report documents and discusses the findings of an experimental study conducted to shed light on...
In this work, we investigate the motion, interaction, and simultaneous collision between many initia...
This paper reports upon a numerical study on the leapfrogging of two elliptical vortex rings at Re=2...
The article of record as published may be found at http://dx.doi.org/10.1017/S0022112008002632This s...
Ce mémoire présente les résultats des simulations numériques directes réalisées sur des anneaux vort...
Interaction of vortex rings moving in the same direction along a common axis is investigated using a...
Experimental studies were carried out on the interaction of two vortex rings moving parallel side by...
In this report, coaxial circular and elliptical vortex rings at AR=3 were simulated with OpenFOAM 2....
The interaction of two vortex rings in an inviscid fluid is investigated numerically using a Lagrang...
International audienceThe head-on collision of two vortex rings can produce diverse phenomena: a tia...
Vortex ring collision on wall explains azimuthal instability, stretching, vorticity and wall turbule...