Aerodynamic interference depends on stroke plane spacing and wing aspect ratio in damselfly model wings

Abstract: The fluid dynamics of aerodynamic force control in insects depends on how oscillating wings interact with the surrounding air. The resulting flow structures are shaped by the flow induced by the wing's instantaneous motion but also on flow components resulting from force production in previous wing strokes and the motion of other wings flapping in close proximity. In four-winged insects such as damsel-and dragonflies, the flow over the hindwings is affected by the forewing downwash. In these animals, a phase-s… Show more

“…A geometry built upon the aerodynamic line could theoretically ensure a smooth flow and thus improve swimming efficiency. Moreover, the methodology explained in the current work shows potential for application in many other bio-inspired structures such as dolphins [62], eels [63], fruit flies [51], ladybirds [64], and damselflies [65], to name a few. Since the far-field speed and orientation greatly influence the aerodynamic/stagnation line, the line's deformation could optimise the structure's ability to withstand the surrounding flow conditions.…”

Semi-Analytical Method for Unsymmetrical Doublet Flow Using Sink- and Source-Dominant Formulation

“…A geometry built upon the aerodynamic line could theoretically ensure a smooth flow and thus improve swimming efficiency. Moreover, the methodology explained in the current work shows potential for application in many other bio-inspired structures such as dolphins [62], eels [63], fruit flies [51], ladybirds [64], and damselflies [65], to name a few. Since the far-field speed and orientation greatly influence the aerodynamic/stagnation line, the line's deformation could optimise the structure's ability to withstand the surrounding flow conditions.…”

Semi-Analytical Method for Unsymmetrical Doublet Flow Using Sink- and Source-Dominant Formulation

Three-dimensional sweeping motion effects on hovering dragonflies