Title of article
A Model for Shelled Micro-Bubble in Geometric Confinement under Acoustics Field
Author/Authors
Qamar, A Division of Physical Sciences and Engineering - King Abdullah University of Science and Technology (KAUST) - Thuwal 23955 - Kingdom of Saudi Arabia
Pages
10
From page
1731
To page
1740
Abstract
A theoretical model to predict the dynamics of a shelled micro-bubble driven by acoustic field in a tubular
geometric confinement is proposed in the present study. The model is derived from first principle and may not be considered as a variant of Rayleigh-Plesset solution. A semi-analytical model is derived in the form of an ordinary differential equation connecting all parameters involved. Results obtained are in agreement with the available experimental data. The model is further linearized to obtain expression for the forced resonant
frequency, which is shown to depend on geometric parameter of confinement as D/ L where D and L are the
tube diameter and length, respectively. Further, linear viscous damping coefficient is also studied and is found that an overdamped or an underdamped state exist base on shelled micro-bubble size and parameters of geometric confinement (L and D). The state of damping clearly indicate when the shelled micro-bubble in confinement would respond linearly or non-linearly under the influence of acoustic field.
Keywords
Shelled micro-bubbles , Acoustics , Geometric confinement , Bubble dynamics , Bubble resonant frequency , Ultrasound contrast agents
Journal title
Journal of Applied Fluid Mechanics (JAFM)
Serial Year
2021
Record number
2662706
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