Investigation of unsteady secondary flows and large-scale turbulence in heterogeneous turbulent boundary layers
Abstract
Following the findings in wangsawijaya2020, we re-examine the turbulent boundary layers developing over surfaces with spanwise heterogeneous roughness of various roughness wavelengths 0.32 ≤ S/δ ≤ 3.63, where S is the width of the roughness strips and δ is the spanwise-averaged boundary-layer thickness. The heterogeneous cases induce counter-rotating secondary flows, and these are compared to the large-scale turbulent structures that occur naturally over the smooth wall. Both appear as meandering elongated high- and low-momentum streaks in the instantaneous flow field. Results suggest that the secondary flows might be spanwise-locked turbulent structures, with S/δ governing the strength of the turbulent structures and possibly the efficacy of the surface in locking the structures in place (most effective when S/δ ≈ 1). Conditional averages of the fluctuating velocity fields of both spanwise heterogeneous and smooth wall cases result in structures that are strongly reminiscent of the streak-vortex instability model. Secondary flows and large-scale structures coexist in the limits where either S/δ 1 or S/δ 1, where the secondary flows scale on δ or S, respectively. When S/δ 1, the secondary flows are locked about the roughness transition, while relatively unaltered large-scale structures occur further from the transition. In the case where S/δ 1, S-scaled secondary flows are confined close to the surface, coexisting with unaltered larger scale turbulent structures that penetrate much deeper into the layer.
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