78th Annual Meeting of the APS Division of Fluid Dynamics (Nov 23 — 25, 2025)

P044: FLAT PLATE FLOW MODIFICATION USING TUBERCLES: INSIGHTS FROM EXPERIMENTS AND CFD SIMULATIONS

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Passive flow control using structured surfaces offers a promising approach for reducing drag in turbulent boundary layers. In this study, we investigate the effect of various bio-inspired and engineered surface patterns-specifically tubercles-on turbulent flow characteristics over a flat plate. Large Eddy Simulations (LES) and experimental measurements in a towing tank are employed to quantify near-wall flow behavior and drag reduction across a range of Reynolds numbers. The results demonstrate that tubercle patterns can reduce drag by up to 7%, primarily due to the suppression of near-wall vortical structures. A parametric study highlights the critical influence of surface geometry, spacing-to-height ratio, and alignment relative to the main flow direction. These findings advance the understanding of surface-structure interactions and support the development of scalable, energy-efficient drag reduction technologies for marine, aerospace, and industrial applications.