The wake of a transversely oscillating circular cylinder in a flowing soap film at low Reynolds number

Abstract

An inclined gravity-driven soap film channel was used to study the wake patterns formed behind a transversely oscillating cylinder at Re =235 14. The natural frequency of vortex shedding from a stationary cylinder, fSt, was used to identify the oscillation frequencies of interest. The (dimensionless) frequency, f*=f/fSt, and amplitude, A*=A/D, of the cylinder's motion was varied over a large portion of the fundamental synchronization region (i.e., for f* ≈ 1), and a `map' of wake patterns was constructed in (f*, A*) space. Lock-on between the frequency of the cylinder's motion and the dominant frequency of the resulting vortex wake was observed for a large range of this parameter space, predominantly manifested as synchronized `2S' and `2P' wake modes. Synchronized `P+S', `2T', and `transitional' wakes were also found in smaller regions of parameter space. Unsynchronized `coalescing' and `perturbed von~' wakes were observed as the oscillation frequency became sufficiently different from f_St. The wake patterns and vortex formation processes found in this study, particularly for the 2P mode wakes, are more similar to those observed by Williamson1988 in three-dimensional experiments than those found by Leontini2006 in two-dimensional simulations, despite the physical constraint from the soap film that prevents three-dimensional effects in the wake.