Streak formation in flow over Biomimetic Fish Scale Arrays
Muthukumar Muthuramalingam, Leo S. Villemin, Christoph Bruecker

TL;DR
This study investigates how the scale pattern of European Sea Bass influences flow dynamics, revealing flow streaks that can reduce drag and potentially delay flow transition, with implications for biomimetic design.
Contribution
It provides a detailed analysis of flow patterns over fish scale arrays and links these patterns to drag reduction, supported by simulations and physical experiments.
Findings
Flow streaks are formed in the boundary layer over scale arrays.
Drag reduction occurs when scale height is less than 10% of boundary layer thickness.
Flow simulations and experiments show excellent agreement in flow structures.
Abstract
The surface topology of the scale pattern from the European Sea Bass (Dicentrarchus labrax ) was measured using a digital microscope and geometrically reconstructed using Computer Assisted Design modelling. Numerical flow simulations and experiments with a physical model of the surface pattern in a flow channel mimic the flow over the fish surface with a laminar boundary layer. The scale array produces regular rows of alternating, streamwise low-speed and high-speed streaks inside the boundary layer close to the surface, with maximum velocity difference of about 9%. Low-velocity streaks are formed in the central region of the scales whereas the high-velocity streaks originated in the overlapping region between the scales. Thus, those flow patterns are linked to the arrangement and the size of the overlapping scales within the array. Because of the velocity streaks, total drag reduction…
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