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Statistical State Dynamics Based Study of the Turbulent Ekman Layer

Published 6 Jan 2026 in physics.flu-dyn | (2601.03033v1)

Abstract: Streamwise roll and streak structures (RSS) are prominent features observed in both atmospheric and oceanic planetary boundary layers (PBL) as well as in laboratory scale Wall bounded shear flows. Despite their structural similarity across these systems, the mechanisms responsible for forming and sustaining the RSS remain debated. This study demonstrates that the same turbulence sustaining mechanism previously identified in Wall bounded shear flows using the Statistical State Dynamics (SSD) formulation of the Navier Stokes equations (Farrell & Ioannou 2012; Farrell et al. 2017) also operates in the Ekman layer. By extending the SSD based stability analysis methods previously used for studying roll formation in wall bounded shear flows to the Ekman layer, we show that the well known Reynolds stress driven instability mechanism in wall-bounded turbulence acts together with inflectional instability to produce and sustain RSS in the Ekman layer. These results enhance the mechanistic understanding of RSS formation and evolution in the turbulent Ekman layer and provide a fundamental link between geophysical Ekman-layer turbulence and turbulence in engineering-scale shear flows.

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