Longhua Zhao, University of North Carolina, Chapel Hill


A fully 3D experimental and theoretical study of flow induced by spinning bent rods in viscous fluids

Abstract: The fluid motion induced by spinning cilia is fundamental to many living organisms. Under some circumstances it is appropriate to approximate cilia as rigid bent rods. We study the effects of shape and orientation of these idealized cilia upon flow structures in a Stokes fluid. By utilizing slender body theory and image method, an asymptotic solution is constructed for a slender body attached to a no-slip flat plane and rotating about its base sweeping out a cone. Using 3D stereoscopic projection in a table-top experiment we explore the complex flow structures and present quantified comparisons with the theoretical predictions. Intriguing short, intermediate and long time phenomena of particle trajectories are documented, and the intricacies of their theoretical modeling reported.

Collaborators: Longhua Zhao, Elizabeth Bouzarth, Roberto Camassa, Pavel Chtcheprov, David Marron, Richard M. McLaughlin, Peter Petrochenko, and Leandra Vicci

Mentors: Roberto Camassa, and Richard M. McLaughlin