Litcius/Paper detail

The interplay of kinematics and aerodynamics in multiple flight modes of a dragonfly

Ryusuke Noda, X. Liu, Csaba Hefler, Wei Shyy, Huihe Qiu

2023Journal of Fluid Mechanics27 citationsDOIOpen Access PDF

Abstract

This paper presents the effects of wing kinematics on both normal forward flight and escape flight of a dragonfly. A Navier–Stokes-based numerical model has been adopted, and results have been substantiated by experimental data. The wing kinematics of tethered specimens and the prescribed wing morphology of a free-flying dragonfly were used in the simulation. To shed light on the interplay between kinematics and aerodynamics, a parametric study of the kinematics has been conducted. It is found that in escape flight, the dragonfly generates additional lift while the thrust reduces and the overall efficiency drops. Compared with normal forward flight, the escape mode produces larger lift force peaks. When the kinematics change to facilitate escape flight, the aerodynamic forces are affected by not only the flapping kinematics but, in the case of the hindwing, the varied wing–wing vortex interactions. The direction of the resultant force on each wing changes according to the change of the mean of pitching angle and stroke plane angle. We found that in the studied configurations, the varied phasing of the wings has a marginal effect on the aerodynamics of the dragonfly. It reduces lift and increases thrust, and this force modulation is slightly more efficient when the local angle of attack also changes. On the other hand, the change of angle of attack played a major role in leading-edge vortex formations and directing the resultant forces of the wings. The results can be useful in developing flight control strategies for micro air vehicle design.

Topics & Concepts

WingThrustKinematicsFlappingAngle of attackAerodynamicsWing twistVortexAerodynamic forceAerospace engineeringDragonflyPhysicsLift (data mining)MechanicsInsect flightGeologyComputer scienceClassical mechanicsEngineeringOdonataPaleontologyData miningBiomimetic flight and propulsion mechanismsFluid Dynamics and Turbulent FlowsFish Ecology and Management Studies