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Collapse and pinch-off of a non-axisymmetric impact-created air cavity in water

Collapse and pinch-off of a non-axisymmetric impact-created air cavity in water
Collapse and pinch-off of a non-axisymmetric impact-created air cavity in water
The axisymmetric collapse of a cylindrical air cavity in water follows a universal power law with logarithmic corrections. Nonetheless, it has been suggested that the introduction of a small azimuthal disturbance induces a long-term memory effect, reflecting in oscillations which are no longer universal but remember the initial condition. In this work, we create non-axisymmetric air cavities by driving a metal disc through an initially quiescent water surface and observe their subsequent gravity-induced collapse. The cavities are characterized by azimuthal harmonic disturbances with a single mode number and amplitude . For small initial distortion amplitude (1 or 2 % of the mean disc radius), the cavity walls oscillate linearly during collapse, with nearly constant amplitude and increasing frequency. As the amplitude is increased, higher harmonics are triggered in the oscillations and we observe more complex pinch-off modes. For small-amplitude disturbances we compare our experimental results with the model for the amplitude of the oscillations by Schmidt et al. (Nature Phys., vol. 5, 2009, pp. 343–346) and the model for the collapse of an axisymmetric impact-created cavity previously proposed by Bergmann et al. (J. Fluid Mech., vol. 633, 2009b, pp. 381–409). By combining these two models we can reconstruct the three-dimensional shape of the cavity at any time before pinch-off.
0022-1120
40-58
Enriquez, Oscar R.
ec085a20-9f1e-4bd2-ac7e-df8c788869d2
Peters, Ivo R.
222d846e-e620-4017-84cb-099b14ff2d75
Gekle, Stephan
828bf58e-4a60-4d0c-a26e-0200b2a4d577
Schmidt, Laura E.
7d8ea59b-bbe6-403b-9d7c-42c49360988a
Lohse, Detlef
a4e72495-4a7c-4f36-b482-6066cb11797a
van der Meer, Devaraj
54e00557-0050-43f5-9efb-a28ea962591c
Enriquez, Oscar R.
ec085a20-9f1e-4bd2-ac7e-df8c788869d2
Peters, Ivo R.
222d846e-e620-4017-84cb-099b14ff2d75
Gekle, Stephan
828bf58e-4a60-4d0c-a26e-0200b2a4d577
Schmidt, Laura E.
7d8ea59b-bbe6-403b-9d7c-42c49360988a
Lohse, Detlef
a4e72495-4a7c-4f36-b482-6066cb11797a
van der Meer, Devaraj
54e00557-0050-43f5-9efb-a28ea962591c

Enriquez, Oscar R., Peters, Ivo R., Gekle, Stephan, Schmidt, Laura E., Lohse, Detlef and van der Meer, Devaraj (2012) Collapse and pinch-off of a non-axisymmetric impact-created air cavity in water. Journal of Fluid Mechanics, 701, 40-58. (doi:10.1017/jfm.2012.130).

Record type: Article

Abstract

The axisymmetric collapse of a cylindrical air cavity in water follows a universal power law with logarithmic corrections. Nonetheless, it has been suggested that the introduction of a small azimuthal disturbance induces a long-term memory effect, reflecting in oscillations which are no longer universal but remember the initial condition. In this work, we create non-axisymmetric air cavities by driving a metal disc through an initially quiescent water surface and observe their subsequent gravity-induced collapse. The cavities are characterized by azimuthal harmonic disturbances with a single mode number and amplitude . For small initial distortion amplitude (1 or 2 % of the mean disc radius), the cavity walls oscillate linearly during collapse, with nearly constant amplitude and increasing frequency. As the amplitude is increased, higher harmonics are triggered in the oscillations and we observe more complex pinch-off modes. For small-amplitude disturbances we compare our experimental results with the model for the amplitude of the oscillations by Schmidt et al. (Nature Phys., vol. 5, 2009, pp. 343–346) and the model for the collapse of an axisymmetric impact-created cavity previously proposed by Bergmann et al. (J. Fluid Mech., vol. 633, 2009b, pp. 381–409). By combining these two models we can reconstruct the three-dimensional shape of the cavity at any time before pinch-off.

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More information

e-pub ahead of print date: 24 April 2012
Published date: June 2012
Organisations: Aerodynamics & Flight Mechanics Group

Identifiers

Local EPrints ID: 400141
URI: http://eprints.soton.ac.uk/id/eprint/400141
ISSN: 0022-1120
PURE UUID: 99e90668-f3c1-4373-9df4-1c0079c19c80
ORCID for Ivo R. Peters: ORCID iD orcid.org/0000-0002-3549-3322

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Date deposited: 20 Sep 2016 13:22
Last modified: 15 Mar 2024 03:52

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Contributors

Author: Oscar R. Enriquez
Author: Ivo R. Peters ORCID iD
Author: Stephan Gekle
Author: Laura E. Schmidt
Author: Detlef Lohse
Author: Devaraj van der Meer

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