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Article Dans Une Revue Hydroacoustics Année : 2016

Lagrangian formalism for computing oscillations of spherically symmetric encapsulated acoustic antibubbles

Résumé

Antibubbles are gas bubbles containing a liquid droplet core and, typically, a stabilising outer shell. It has been hypothesised that acoustically driven antibubbles can be used for active leakage detection from subsea production facilities. This paper treats the dynamics of spherically symmetric microscopic antibubbles, building on existing models of bubble dynamics. A more complete understanding of microbubble dynamics demands that the effects of the translational dynamics is included into the Rayleigh-Plesset equation, which has been the primary aim of this paper. Moreover, it is a goal of this paper to derive a theory that is not based on ad-hoc parameters due to the presence of a shell, but rather on material properties. To achieve a coupled set of differential equations describing the radial and translational dynamics of an antibubble, in this paper Lagrangian formalism is used, where a Rayleigh-Plesset-like equation allows for the shell to be modelled from first principles. Two shell models are adopted; one for a Newtonian fluid shell, and the other for a Maxwell fluid shell. In addition, a zero-thickness approximation of the encapsulation is presented for both models. The Newtonian fluid shell can be considered as a special case of the Maxwell fluid shell. The equations have been linearised and the natural and damped resonance frequencies have been presented for both shell models.
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Dates et versions

hal-03192764 , version 1 (09-04-2021)

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Kristoffer Johansen, Michiel Postema. Lagrangian formalism for computing oscillations of spherically symmetric encapsulated acoustic antibubbles. Hydroacoustics, 2016, 19, pp.197-207. ⟨10.5281/zenodo.4883605⟩. ⟨hal-03192764⟩
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