The Emergence of Small Scales in Vortex Ring Collisions
The Emergence of Small Scales in Vortex Ring Collisions
Ryan McKeown, Harvard University
Rodolfo Ostilla Monico, Harvard University
Alain Pumir, ENS Lyon
Michael P. Brenner, Harvard University
Shmuel M. Rubinstein, Harvard University
DOI: https://doi.org/10.1103/APS.DFD.2017.GFM.V0037
When two coherent vortex rings collide head-on, they explode into a turbulent cloud. This video investigates how the rapid generation of these small-scale flow structures is mediated by the interactions of the two colliding vortex cores. We observe a novel mechanism by which the vortex cores are flattened into sheets and break down into smaller secondary vortices, which, themselves break down into even smaller tertiary vortex filaments. This iterative cascade is a possible mechanism by which fine-scale flow structures emerge in turbulent flows.
See other videos from the 2017 Gallery of Fluid Motion: https://gfm.aps.org/
Видео The Emergence of Small Scales in Vortex Ring Collisions канала APS Physics
Ryan McKeown, Harvard University
Rodolfo Ostilla Monico, Harvard University
Alain Pumir, ENS Lyon
Michael P. Brenner, Harvard University
Shmuel M. Rubinstein, Harvard University
DOI: https://doi.org/10.1103/APS.DFD.2017.GFM.V0037
When two coherent vortex rings collide head-on, they explode into a turbulent cloud. This video investigates how the rapid generation of these small-scale flow structures is mediated by the interactions of the two colliding vortex cores. We observe a novel mechanism by which the vortex cores are flattened into sheets and break down into smaller secondary vortices, which, themselves break down into even smaller tertiary vortex filaments. This iterative cascade is a possible mechanism by which fine-scale flow structures emerge in turbulent flows.
See other videos from the 2017 Gallery of Fluid Motion: https://gfm.aps.org/
Видео The Emergence of Small Scales in Vortex Ring Collisions канала APS Physics
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