Berkeley Fluids Seminar
University of California, Berkeley
Bring your lunch and enjoy learning about fluids!
October 29, 2014
Prof. Tom Solomon (Physics and Astronomy, Bucknell University)
Experimental studies of reactions and front propagation in laminar fluid flows
We present studies of the effects of vortex-dominated fluid flows on the dynamics of the oscillatory or excitable Belousov-Zhabotinsky reaction. The results of these experiments have applications for advection-reaction-diffusion dynamics in a wide range of systems including microfluidic chemical reactors, cellular-scale processes in biological systems, and blooms of phytoplankton in the oceans. Much of our work is focused on understanding how reaction fronts propagate in fluid flows. To analyze and predict the behavior of the fronts, we generalize tools developed to describe passive mixing. In particular, the concept of an invariant manifold is extended to account for reactive burning. These ``burning invariant manifolds'' (BIMs) are barriers that locally block the motion of reaction fronts. Unlike invariant manifolds for passive transport, however, the BIMs are barriers for front propagation in one direction only. These ideas are tested and illustrated experimentally in a chain of alternating vortices, a spatially-random flow, and vortex flows with imposed winds. Time permitting, we will also discuss experiments demonstrating long-range synchronization of reaction dynamics due to superdiffusive mixing and Lévy flight tracer trajectories.