Unsteady aerodynamics of dragonfly using a simple wing–wing model from the perspective of a force decomposition

Insects perform their multitude of flight skills at frequencies of tens to hundreds of Hertz, and the aerodynamics of these skills are fundamentally unsteady. Intuitively, unsteadiness may come from unsteady wing motion, unsteady surface vorticity or vorticity being shed into the rear and front wake...

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Published in	Journal of fluid mechanics Vol. 663; pp. 233 - 252
Main Authors	HSIEH, CHENG-TA, KUNG, CHUN-FEI, CHANG, CHIEN C., CHU, CHIN-CHOU
Format	Journal Article
Language	English
Published	Cambridge, UK Cambridge University Press 25.11.2010
Subjects	Aerodynamics Aquatic insects Biochemistry. Physiology. Immunology Biological and medical sciences Computational fluid dynamics Decomposition Fluid flow Fundamental and applied biological sciences. Psychology Insecta Insects Invertebrates Lift Physiology. Development swimming/flying Thrust Unsteady Vorticity Wings (aircraft) aerodynamics swimming/flying Wing Insecta Interaction Flight Libellulidae Aerodynamics Modeling Lift Wing beat Arthropoda Odonata Invertebrata Thrust
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Abstract	Insects perform their multitude of flight skills at frequencies of tens to hundreds of Hertz, and the aerodynamics of these skills are fundamentally unsteady. Intuitively, unsteadiness may come from unsteady wing motion, unsteady surface vorticity or vorticity being shed into the rear and front wakes. In this study, we propose to investigate the aerodynamics of dragonfly using a simplified wing–wing model from the perspective of many-body force decomposition and the associated force elements. Insect flight usually operates at Reynolds numbers of the order of several hundreds, at which the surface vorticity is shown to play a substantial role. There are important cases where the added mass effect is non-negligible. Nevertheless, the major contribution to the forces comes from the vorticity within the flow. This study focused on the effects of mutual interactions due to phase differences between the fore- and hindwings in the translational as well as rotational motions. It is well known that the dynamic stall vortex is an important mechanism for an unsteady wing to gain lift. In analysing the life cycles of lift and thrust elements, we also associate some high lift and thrust with the mechanisms identified as ‘riding on’ lift elements, ‘driven by’ thrust elements and ‘sucked by’ thrust elements, by which a wing makes use of a shed or fused vortex below, in front of, and behind it, respectively. In addition, a shear layer attaching to each wing may also provide significant thrust elements.
AbstractList	Insects perform their multitude of flight skills at frequencies of tens to hundreds of Hertz, and the aerodynamics of these skills are fundamentally unsteady. Intuitively, unsteadiness may come from unsteady wing motion, unsteady surface vorticity or vorticity being shed into the rear and front wakes. In this study, we propose to investigate the aerodynamics of dragonfly using a simplified wing-wing model from the perspective of many-body force decomposition and the associated force elements. Insect flight usually operates at Reynolds numbers of the order of several hundreds, at which the surface vorticity is shown to play a substantial role. There are important cases where the added mass effect is non-negligible. Nevertheless, the major contribution to the forces comes from the vorticity within the flow. This study focused on the effects of mutual interactions due to phase differences between the fore- and hindwings in the translational as well as rotational motions. It is well known that the dynamic stall vortex is an important mechanism for an unsteady wing to gain lift. In analysing the life cycles of lift and thrust elements, we also associate some high lift and thrust with the mechanisms identified as 'riding on' lift elements, 'driven by' thrust elements and 'sucked by' thrust elements, by which a wing makes use of a shed or fused vortex below, in front of, and behind it, respectively. In addition, a shear layer attaching to each wing may also provide significant thrust elements. [PUBLICATION ABSTRACT] Insects perform their multitude of flight skills at frequencies of tens to hundreds of Hertz, and the aerodynamics of these skills are fundamentally unsteady. Intuitively, unsteadiness may come from unsteady wing motion, unsteady surface vorticity or vorticity being shed into the rear and front wakes. In this study, we propose to investigate the aerodynamics of dragonfly using a simplified wing–wing model from the perspective of many-body force decomposition and the associated force elements. Insect flight usually operates at Reynolds numbers of the order of several hundreds, at which the surface vorticity is shown to play a substantial role. There are important cases where the added mass effect is non-negligible. Nevertheless, the major contribution to the forces comes from the vorticity within the flow. This study focused on the effects of mutual interactions due to phase differences between the fore- and hindwings in the translational as well as rotational motions. It is well known that the dynamic stall vortex is an important mechanism for an unsteady wing to gain lift. In analysing the life cycles of lift and thrust elements, we also associate some high lift and thrust with the mechanisms identified as ‘riding on’ lift elements, ‘driven by’ thrust elements and ‘sucked by’ thrust elements, by which a wing makes use of a shed or fused vortex below, in front of, and behind it, respectively. In addition, a shear layer attaching to each wing may also provide significant thrust elements.
Author	HSIEH, CHENG-TA KUNG, CHUN-FEI CHANG, CHIEN C. CHU, CHIN-CHOU
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Cites_doi	10.1242/jeb.200.3.557 10.2514/3.50966 10.1242/jeb.137.1.221 10.1103/PhysRevLett.99.148101 10.1098/rspa.1935.0081 10.1093/qjmam/48.3.401 10.1242/jeb.01262 10.1016/j.fluiddyn.2006.06.001 10.1242/jeb.59.1.169 10.1242/jeb.01319 10.1126/science.284.5422.1954 10.1017/S0022112086001301 10.1017/S0022112008000396 10.1007/978-1-349-00517-8 10.1103/PhysRevLett.85.2216 10.1098/rspa.1992.0077 10.1017/S0022112001003925 10.1063/1.2730481 10.1242/jeb.109.1.379 10.1242/jeb.00969 10.1017/S0022112086001313 10.1242/jeb.116.1.79 10.1017/S0022112079002019 10.1017/S002211200800503X 10.1017/S0022112073000017 10.2514/3.61273 10.1017/S0022112079001774
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Keywords	aerodynamics swimming/flying Wing Insecta Interaction Flight Libellulidae Aerodynamics Modeling Lift Wing beat Arthropoda Odonata Invertebrata Thrust
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SubjectTerms	Aerodynamics Aquatic insects Biochemistry. Physiology. Immunology Biological and medical sciences Computational fluid dynamics Decomposition Fluid flow Fundamental and applied biological sciences. Psychology Insecta Insects Invertebrates Lift Physiology. Development swimming/flying Thrust Unsteady Vorticity Wings (aircraft)
Title	Unsteady aerodynamics of dragonfly using a simple wing–wing model from the perspective of a force decomposition
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