Role of Dipole Jet in Inclined Stroke Plane Kinematics of Insect Flight

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摘要 The two-dimensional(2D)inclined stroke plane kinematics of insect wing is studied for various stroke plane angles using the Immersed Boundary(IB)solver.The numerical results revealed the dominant lift enhancement mechanisms for this class of flows.The generated dipole was analyzed to find the maximum velocity,inclination and spread.The analysis of these dipole characteristics for the different stroke plane angles exposed the alternate method to study the vertical force variation with the stroke plane angles.Lift enhancement mechanisms and dipole characteristics complement the high vertical force coefficient for the stroke plane angle of 60?commonly used by dragonflies during hover.The location of the dipole identified a region of influence around the wing and demonstrated the role of the dipole jet in multi-body dynamics and wall effects.

作者 Shanmugam Deepthi Sankaranarayanan Vengadesan

机构地区 Department of Applied Mechanics Department of Mechanical Engineering

出处《Journal of Bionic Engineering》 SCIE EI CSCD 2020年第1期161-173,共13页 仿生工程学报（英文版）

关键词 insect flight BIONIC inclined STROKE PLANE DIPOLE JET FLAPPING wing

分类号 Q811 [生物学—生物工程]

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参考文献4

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Role of Dipole Jet in Inclined Stroke Plane Kinematics of Insect Flight

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