Interaction of a thin vortex ring with a deforming and non-deforming bubble: similarities and differences
Interaction of a thin vortex ring with a deforming and non-deforming bubble: similarities and differences
In bubbly turbulent flows, the deformation of the bubble is known to play an important role in the interaction between the carrier phase and the dispersed phase. In order to understand the role of bubble’s deformability on these complex interactions, we experimentally study an idealization, namely, the interaction of a deforming air bubble (ρbubble/ρwater ≈ 0.001) and a rigid buoyant particle (ρparticle/ρwater≈0.008, a rigid bubble), with a single water vortex ring (Re=6000–67300), with the main difference being the distinct difference in their deformability. The rigid and the deforming bubbles are directly engulfed into the vortex core. The deforming bubble undergoes elongation outside the ring during its capture, followed by elongation (azimuthally) and breakup inside the ring. In contrast, the rigid bubble remains spherical during capture, and stays more localized within the ring. We capture the deformability effects on the bubble dynamics and in modifications to the ring core's vorticity, the former measured using high speed imaging, and the latter with time-resolved PIV. The differences in deformability lead to distinct differences in the ring’s convection speed, azimuthal vorticity, and enstrophy. The details of these interactions, including both differences and similarities across the deforming and rigid bubble cases at low and large ring Reynolds numbers, will be presented at the conference.
Biswas, Subhajit
66f05b88-e89e-45e0-a29e-f5fb7839527f
Govardhan, Raghuraman N
851e2ce3-0ed2-433d-b2f0-bb1fb61fdbae
19 November 2023
Biswas, Subhajit
66f05b88-e89e-45e0-a29e-f5fb7839527f
Govardhan, Raghuraman N
851e2ce3-0ed2-433d-b2f0-bb1fb61fdbae
Biswas, Subhajit and Govardhan, Raghuraman N
(2023)
Interaction of a thin vortex ring with a deforming and non-deforming bubble: similarities and differences.
76th Annual Meeting of the Division of Fluid Dynamics, , Washington, United States.
19 - 21 Nov 2023.
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Conference or Workshop Item
(Other)
Abstract
In bubbly turbulent flows, the deformation of the bubble is known to play an important role in the interaction between the carrier phase and the dispersed phase. In order to understand the role of bubble’s deformability on these complex interactions, we experimentally study an idealization, namely, the interaction of a deforming air bubble (ρbubble/ρwater ≈ 0.001) and a rigid buoyant particle (ρparticle/ρwater≈0.008, a rigid bubble), with a single water vortex ring (Re=6000–67300), with the main difference being the distinct difference in their deformability. The rigid and the deforming bubbles are directly engulfed into the vortex core. The deforming bubble undergoes elongation outside the ring during its capture, followed by elongation (azimuthally) and breakup inside the ring. In contrast, the rigid bubble remains spherical during capture, and stays more localized within the ring. We capture the deformability effects on the bubble dynamics and in modifications to the ring core's vorticity, the former measured using high speed imaging, and the latter with time-resolved PIV. The differences in deformability lead to distinct differences in the ring’s convection speed, azimuthal vorticity, and enstrophy. The details of these interactions, including both differences and similarities across the deforming and rigid bubble cases at low and large ring Reynolds numbers, will be presented at the conference.
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Published date: 19 November 2023
Venue - Dates:
76th Annual Meeting of the Division of Fluid Dynamics, , Washington, United States, 2023-11-19 - 2023-11-21
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Local EPrints ID: 501814
URI: http://eprints.soton.ac.uk/id/eprint/501814
PURE UUID: 58249ff0-85ae-4c35-8872-6842b9037538
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Date deposited: 10 Jun 2025 16:54
Last modified: 11 Jun 2025 02:13
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Contributors
Author:
Subhajit Biswas
Author:
Raghuraman N Govardhan
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