Bubble racing in a Hele-Shaw cell

Daniel James Booth; Ian M Griffiths; Peter D Howell; Howard A Stone; Katie Wu; Janine K. Nunes

Bubble racing in a Hele-Shaw cell

POSTER

Abstract

We study theoretically and experimentally the propagation of bubbles in a Hele-Shaw cell under a uniform background flow, in the regime where each bubble remains approximately circular. New experimental results for the velocity of an isolated bubble are found to agree well with theoretical predictions. We examine a system of two non-identical bubbles on different streamlines of the background flow, with the larger one initially behind. We find that the larger bubble overtakes the smaller one, and they avoid contact by rotating around each other while passing.

^*DJB is grateful to EPSRC, grant reference number EP/V520202/1, for funding.

Publication: Booth, D.J., Griffiths, I.M. & Howell, P.D. 2023 Circular bubbles in a Hele-Shaw channel: a Hele-Shaw Newton's cradle. J. Fluid Mech. 954, A21.
Wu, K., Booth, D.J., Griffiths, I.M., Howell, P.D., Nunes, J.K. & Stone, H.A. 2024 The motion and deformation of a bubble in a hele-shaw cell. Submitted to Phys. Rev. Fluids
Booth, D.J., Wu, K., Griffiths, I.M., Howell, P.D., Nunes, J.K. & Stone, H.A. 2024 Bubble racing in a Hele-Shaw cell. In prep. for J. Fluid Mech.

Presenters

Daniel James Booth
- University of Oxford

Authors

Daniel James Booth
- University of Oxford
Ian M Griffiths
- University of Oxford
Peter D Howell
- University of Oxford
Howard A Stone
- Princeton University
Katie Wu
- Princeton University
Janine K. Nunes
- Princeton University