Abstract
Aerodynamic force generation capacity of the wing of a miniature beetle Paratuposa placentis is evaluated using a combined experimental and numerical approach. The wing has a peculiar shape reminiscent of a bird feather, often found in the smallest insects. Aerodynamic force coefficients are determined from a dynamically scaled force measurement experiment with rotating bristled and membrane wing models in a glycerin tank. Subsequently, they are used as numerical validation data for computational fluid dynamics simulations using an adaptive Navier–Stokes solver. The latter provides access to important flow properties such as leakiness and permeability. It is found that, in the considered biologically relevant regimes, the bristled wing functions as a less than 50% leaky paddle, and it produces between 66 and 96% of the aerodynamic drag force of an equivalent membrane wing. The discrepancy increases with increasing Reynolds number. It is shown that about half of the aerodynamic normal force exerted on a bristled wing is due to viscous shear stress. The paddling effectiveness factor is proposed as a measure of aerodynamic efficiency.Graphic abstract
Highlights
ObjectivesThe objectives of our study are to implement and crossvalidate an experimental facility and a numerical simulation software for studying the aerodynamics of bristles wings of bio-realistic shape
Some smallest insects have fringed wings with long bristles visually resembling bird feathers
This particular case corresponds to the angle of attack of = 60◦, and the Reynolds number is Re = 9.9, but the time evolution is similar in all cases
Summary
The objectives of our study are to implement and crossvalidate an experimental facility and a numerical simulation software for studying the aerodynamics of bristles wings of bio-realistic shape
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