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Parametric Investigations of the Induced Shear Stress by a Laser-Generated Bubble

Koukouvinis, P. ORCID: 0000-0002-3945-3707, Strotos, G., Zeng, Q., Gonzalez-Avila, S. R., Theodorakakos, A., Gavaises, M. ORCID: 0000-0003-0874-8534 and Ohl, C-D. (2018). Parametric Investigations of the Induced Shear Stress by a Laser-Generated Bubble. Langmuir, 34(22), pp. 6428-6442. doi: 10.1021/acs.langmuir.8b01274

Abstract

The present paper focuses on the simulation of the growth and collapse of a bubble in the vicinity of a wall. Both liquid and gas phases are assumed compressible, and their interaction is handled with the volume-of-fluid method. The main interest is to quantify the influence of the induced shear stress and pressure pulse in the vicinity of the wall for a variety of bubble sizes and bubble–wall distances. The results are validated against prior experimental results, such as the measurements of the bubble size, induced pressure field, and shear stress on the wall. The simulation predictions indicate that the wall in the vicinity of the bubble is subjected both to high shear stresses and large pressure pulses because of the growth and collapse of the bubble. In fact, pressure levels of 100 bar or more and shear stresses up to 25 kPa have been found at localized spots on the wall surface, at the region around the bubble. Moreover, the simulations are capable of providing additional insight to the experimental investigation, as the inherent limitations of the latter are avoided. The present work may be considered as a preliminary investigation in optimizing bubble energy and wall generation distance for ultrasound cleaning applications.

Publication Type: Article
Additional Information: Reprinted with permission from ACS Publications. Copyright 2018, ACS Publications.
Publisher Keywords: Numerical simulation, compressible bubble dynamics, bubble collapse, shear stress, surface cleaning
Subjects: T Technology > TJ Mechanical engineering and machinery
Departments: School of Mathematics, Computer Science & Engineering > Engineering > Mechanical Engineering & Aeronautics
URI: http://openaccess.city.ac.uk/id/eprint/20072
[img] Text - Accepted Version
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