Coherence of unsteady wake of periodically plunging airfoil

We present an experimental investigation of the flow structure in the near wake of a NACA0012 airfoil plunging sinusoidally at a chord Reynolds number of Re = 20 000 and for a wide range of reduced frequency k and Strouhal number based on peak-to-peak amplitude St. Estimated mean thrust coefficients using the mean and fluctuating velocity fields confirm the St(2) dependence as well as a significant effect of the reduced frequency for k <= 1. Generally, time-averaged flow quantities are better correlated with St than k in the range tested (k <= 3.14 and St <= 0.24). Analysis of the streamwise flow and cross-flow in the near wake using two-point cross-correlations and proper orthogonal decomposition reveals that the unsteady characteristics are even better correlated with St than the mean flow quantities. The percentage energy of the fundamental wake modes of the streamwise flow and the flapping mode of the cross-flow increases with increasing St, but at different rates in the drag-producing and thrust-producing wakes. There are similarities to the wake synchronisation behind oscillating bodies. The spanwise-averaged cross-correlation coefficient in the measurement domain grows linearly for small St (in drag-producing wakes), and is nearly constant at a high value for larger St (in thrust-producing wakes). Results show that the Strouhal number is the most important parameter that determines the degree of two-dimensionality of the wake, and suggest that spanwise vortices are quasi-two-dimensional for St >= 0.05 and x/c <= 4. The implications for experimental gust generators using oscillating airfoils are discussed.

Automated summary

This experimental investigation focuses on the flow structure in the near wake of a NACA0012 airfoil undergoing sinusoidal plunging motion. The study reveals the dependence of mean thrust coefficient on Strouhal number and reduced frequency. The analysis suggests that the unsteady characteristics are better correlated with Strouhal number than the mean flow quantities. The study also highlights the importance of Strouhal number in determining the two-dimensionality of the wake.