Investigation of Unsteady Aerodynamic Characteristics of a Seagull Wing in Level Flight

Unsteady aerodynamic characteristics of a seagull wing in level flight are investigated using a boundary element method. A new no-penetration boundary condition is imposed on the surface of the wing by considering its deformation. The geometry and kinematics of the seagull wing are reproduced using...

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Published in	Journal of bionics engineering Vol. 6; no. 4; pp. 408 - 414
Main Author	Han, Cheolheui
Format	Journal Article
Language	English
Published	Singapore Elsevier Ltd 01.12.2009 Springer Singapore
Subjects	aerial locomotion Artificial Intelligence Biochemical Engineering Bioinformatics Biomaterials Biomedical Engineering and Bioengineering Biomedical Engineering/Biotechnology biomimetics Engineering Flapping Folding Lift Mathematical analysis Mathematical models panel method sea gull wing Thrust Unsteady aerodynamics Wings (aircraft) aerial locomotion biomimetics sea gull wing unsteady aerodynamics panel method
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ISSN	1672-6529 2543-2141
DOI	10.1016/S1672-6529(08)60136-5

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Abstract	Unsteady aerodynamic characteristics of a seagull wing in level flight are investigated using a boundary element method. A new no-penetration boundary condition is imposed on the surface of the wing by considering its deformation. The geometry and kinematics of the seagull wing are reproduced using the functions and data in the previously published literature. The proposed method is validated by comparing the computed results with the published data in the literature. The unsteady aerodynamics characteristics of the seagull wing are investigated by changing flapping frequency and advance ratio. It is found that the peak values of aerodynamic coefficients increase with the flapping frequency. The thrust and drag generations are complicated functions of frequency and wing stroke motions. The lift is inversely proportional to the advance ratio. The effects of several flapping modes on the lift and induced drag (or thrust) generation are also investigated. Among three single modes (flapping, folding and lead & lag), flapping generates the largest lift and can produce thrust alone. For three combined modes, both flapping/folding and flapping/lead & lag can produce lift and thrust larger than the flapping-alone mode can. Folding is shown to increase thrust when combined with flapping, whereas lead & lag has an effect of increasing the lift when also combined with flapping. When three modes are combined together, the bird can obtain the largest lift among the investigated modes. Even though the proposed method is limited to the inviscid flow assumption, it is believed that this method can be used to the design of flapping micro aerial vehicle.
AbstractList	Unsteady aerodynamic characteristics of a seagull wing in level flight are investigated using a boundary element method. A new no-penetration boundary condition is imposed on the surface of the wing by considering its deformation. The geometry and kinematics of the seagull wing are reproduced using the functions and data in the previously published literature. The proposed method is validated by comparing the computed results with the published data in the literature. The unsteady aerodynamics characteristics of the seagull wing are investigated by changing flapping frequency and advance ratio. It is found that the peak values of aerodynamic coefficients increase with the flapping frequency. The thrust and drag generations are complicated functions of frequency and wing stroke motions. The lift is inversely proportional to the advance ratio. The effects of several flapping modes on the lift and induced drag (or thrust) generation are also investigated. Among three single modes (flapping, folding and lead & lag), flapping generates the largest lift and can produce thrust alone. For three combined modes, both flapping/folding and flapping/lead & lag can produce lift and thrust larger than the flapping-alone mode can. Folding is shown to increase thrust when combined with flapping, whereas lead & lag has an effect of increasing the lift when also combined with flapping. When three modes are combined together, the bird can obtain the largest lift among the investigated modes. Even though the proposed method is limited to the inviscid flow assumption, it is believed that this method can be used to the design of flapping micro aerial vehicle.
Author	Han, Cheolheui
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Keywords	aerial locomotion biomimetics sea gull wing unsteady aerodynamics panel method
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References_xml	– volume: Vol 195 year: 2001 ident: bib4 publication-title: Fixed and Flapping Wing Aerodynamics for Micro Air Vehicle Applications, Progress in Astronautics and Aeronautics – volume: 44 start-page: 459 year: 2007 end-page: 466 ident: bib8 article-title: Time-area-averaged momentum stream tube model for flapping flight publication-title: Journal of Aircraft – volume: 44 start-page: 1849 year: 2007 end-page: 1855 ident: bib10 article-title: Unsteady numerical simulation of wings with flaperon flying over nonplanar ground surface publication-title: Journal of Aircraft – reference: Smith M J C. – volume: 112 start-page: 97 year: 1981 end-page: 125 ident: bib6 article-title: An unsteady lifting line theory of flapping wings with application to the forward flight of birds publication-title: Journal of Fluid Mechanics – volume: 39 start-page: 635 year: 2003 end-page: 681 ident: bib3 article-title: Unsteady aerodynamics and flow control for flapping wing flyers publication-title: Progress in Aerospace Sciences – volume: 44 start-page: 24 year: 2006 end-page: 33 ident: bib7 article-title: Comparative scaling of flappingand fixed-wing flyers publication-title: AIAA Journal – reference: , AIAA Education Series, 2nd Edition, AIAA Inc, Reston, Virginia, 2006. – volume: 20 start-page: 1043 year: 2006 end-page: 1050 ident: bib9 article-title: Steady aerodynamic characteristics of a wing flying over a nonplanar ground surface, Part I: Rail publication-title: Journal of Mechanical Science and Technology – reference: Azuma A. – year: 2002 ident: bib11 publication-title: Low-Speed Aerodynamics – volume: 39 start-page: 585 year: 2003 end-page: 633 ident: bib2 article-title: Aerohydrodynamics of flapping-wing propulsors publication-title: Progress in Aerospace Sciences – volume: 44 start-page: 954 year: 2006 end-page: 963 ident: bib12 article-title: Avian wing geometry and kinematics publication-title: AIAA Journal – reference: , PhD Dissertation, School of Aeronautics and Astronautics, Purdue University, West Lafayette, Indinia, USA, 1995. – reference: SmithM J CSimulating Flapping Insect Wings Using an Aerodynamic Panel Method: Towards the Development of Flapping-Wing Technology1995West Lafayette, Indinia, USASchool of Aeronautics and Astronautics, Purdue University – reference: RozhdestvenskyK VRyzhovV AAerohydrodynamics of flapping-wing propulsorsProgress in Aerospace Sciences20033958563310.1016/S0376-0421(03)00077-0 – reference: HanCKimHChoJSteady aerodynamic characteristics of a wing flying over a nonplanar ground surface, Part I: RailJournal of Mechanical Science and Technology2006201043105010.1007/BF02916003 – reference: MullerT JFixed and Flapping Wing Aerodynamics for Micro Air Vehicle Applications, Progress in Astronautics and Aeronautics2001Reston, VirginiaAIAA IncVol 195 – reference: LiuTComparative scaling of flapping- and fixed-wing flyersAIAA Journal200644243310.2514/1.4035 – reference: LiuTKuykendollKRhewRJonesSAvian wing geometry and kinematicsAIAA Journal20064495496310.2514/1.16224 – reference: ChoJChoJLeeSUnsteady numerical simulation of wings with flaperon flying over nonplanar ground surfaceJournal of Aircraft2007441849185510.2514/1.30265 – reference: PhlipsP JEastR APrattN HAn unsteady lifting line theory of flapping wings with application to the forward flight of birdsJournal of Fluid Mechanics19811129712563923310.1017/S00221120810003110489.76016 – reference: LiuTTime-area-averaged momentum stream tube model for flapping flightJournal of Aircraft20074445946610.2514/1.23660 – reference: AzumaAThe Biokinetics of Flying and Swimming20062Reston, VirginiaAIAA Inc10.2514/4.862502 – reference: HoSNassefHPornsinsirirakNTaiY CHoC MUnsteady aerodynamics and flow control for flapping wing flyersProgress in Aerospace Sciences20033963568110.1016/j.paerosci.2003.04.001 – reference: KatzJPlotkinALow-Speed Aerodynamics20022New York, USACambridge University Press0976.76003 – volume: 39 start-page: 585 year: 2003 ident: 6040408_CR2 publication-title: Progress in Aerospace Sciences doi: 10.1016/S0376-0421(03)00077-0 – volume-title: Fixed and Flapping Wing Aerodynamics for Micro Air Vehicle Applications, Progress in Astronautics and Aeronautics year: 2001 ident: 6040408_CR4 – volume: 112 start-page: 97 year: 1981 ident: 6040408_CR6 publication-title: Journal of Fluid Mechanics doi: 10.1017/S0022112081000311 – volume-title: Low-Speed Aerodynamics year: 2002 ident: 6040408_CR11 – volume: 39 start-page: 635 year: 2003 ident: 6040408_CR3 publication-title: Progress in Aerospace Sciences doi: 10.1016/j.paerosci.2003.04.001 – volume: 44 start-page: 24 year: 2006 ident: 6040408_CR7 publication-title: AIAA Journal doi: 10.2514/1.4035 – volume-title: Simulating Flapping Insect Wings Using an Aerodynamic Panel Method: Towards the Development of Flapping-Wing Technology year: 1995 ident: 6040408_CR5 – volume: 44 start-page: 459 year: 2007 ident: 6040408_CR8 publication-title: Journal of Aircraft doi: 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SubjectTerms	aerial locomotion Artificial Intelligence Biochemical Engineering Bioinformatics Biomaterials Biomedical Engineering and Bioengineering Biomedical Engineering/Biotechnology biomimetics Engineering Flapping Folding Lift Mathematical analysis Mathematical models panel method sea gull wing Thrust Unsteady aerodynamics Wings (aircraft)
Title	Investigation of Unsteady Aerodynamic Characteristics of a Seagull Wing in Level Flight
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