A two-dimensional model of low-Reynolds number swimming beneath a free surface

Author(s)

Crowdy, Darren; Lee, Sungyon; Samson, Ophir; Lauga, Eric; Hosoi, Anette E.

Abstract

Biological organisms swimming at low-Reynolds number are often influenced by the presence of rigid boundaries and soft interfaces. In this paper, we present an analysis of locomotion near a free surface with surface tension. Using a simplified two-dimensional singularity model and combining a complex variable approach with conformal mapping techniques, we demonstrate that the deformation of a free surface can be harnessed to produce steady locomotion parallel to the interface. The crucial physical ingredient lies in the nonlinear hydrodynamic coupling between the disturbance flow created by the swimmer and the free boundary problem at the fluid surface.

Date issued

2011-06

URI

http://hdl.handle.net/1721.1/78605

Department

Massachusetts Institute of Technology. Department of Mechanical Engineering

Journal

Journal of Fluid Mechanics

Publisher

Cambridge University Press

Citation

Crowdy, Darren et al. “A Two-dimensional Model of low-Reynolds Number Swimming Beneath a Free Surface.” Journal of Fluid Mechanics 681 (2011): 24–47.

Version: Author's final manuscript

ISSN

0022-1120

1469-7645