Self-similarity of an eroding body

M.N.J. Moore; Leif Ristroph; Stephen Childress; Michael Shelley; Jun Zhang

Self-similarity of an eroding body

ORAL

Abstract

Motivated by the erosion of natural landforms, we study the interaction between an eroding body and surrounding fluid-flow using experiments and simulations. Both reveal the emergence of a unique shape that forms early and then shrinks in a self-similar fashion. Here, I focus on simulations in which erosion rate is dictated by local shear stress. In this high-Reynolds-number context, we determine shear stress by combining an outer, inviscid flow with a boundary layer flow. We discover that a broad range of initial shapes morph into a terminal shape characterized by nearly uniform shear.

Nov. 19, 2012, 8:26 AM – Nov. 19, 2012, 8:39 AM

Authors

M.N.J. Moore
- Courant Institute
- New York University, Courant Institute
Leif Ristroph
- Courant Institute
- New York University, Courant Institute
Stephen Childress
- Courant Institute
Michael Shelley
- Courant Institute of Mathematical Sciences, New York University, New York, New York 10012, USA
- New York University
- Courant Institute
- New York University, Courant Institute
Jun Zhang
- New York University Department of Physics, Courant Institute
- New York University, Courant Institute