Drag reduction of a hairy disk

Jun Niu; David L. Hu

doi:10.1063/1.3639133

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Drag reduction of a hairy disk

Jun Niu David L. Hu

Year: 2011 Journal: Physics of Fluids Vol: 23 (10) Publisher: American Institute of Physics

DOI: 10.1063/1.3639133

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Abstract

We investigate experimentally the hydrodynamics of a hairy disk immersed in a two-dimensional flowing soap film. Drag force is measured as a function of hair length, density, and coating area. An optimum combination of these parameters yields a drag reduction of 17%, which confirms previous numerical predictions (15%). Flow visualization indicates the primary mechanism for drag reduction is the bending, adhesion, and reinforcement of hairs trailing the disk, which reduces wake width and traps “dead water.” Thus, the use of hairy coatings can substantially reduce an object’s drag while negligibly increasing its weight.

Keywords:

Drag Physics Wake Flow visualization Mechanics Reduction (mathematics) Parasitic drag Drag coefficient Coating Flow (mathematics) Optics Composite material Geometry Materials science

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Surface Modification and Superhydrophobicity

Physical Sciences → Materials Science → Surfaces, Coatings and Films

Fluid Dynamics and Vibration Analysis

Physical Sciences → Engineering → Computational Mechanics

Biomimetic flight and propulsion mechanisms

Physical Sciences → Engineering → Aerospace Engineering

Drag reduction of a hairy disk

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