Aerodynamic performance of a low-Reynolds UAV with leading-edge protuberances inspired by humpback whale flippers

Yang ZHANG; Xu ZHANG; Yi LI; Min CHANG; Jiakuan XU

doi:10.1016/j.cja.2020.11.004

Aerodynamic performance of a low-Reynolds UAV with leading-edge protuberances inspired by humpback whale flippers

Yang ZHANG, Xu ZHANG, Yi LI, Min CHANG, Jiakuan XU

Unmanned System Research Institute

Research output: Contribution to journal › Article › peer-review

15 Scopus citations

Abstract

The aerodynamic forces and flowfield on a delta-wing Unmanned Aerial Vehicle (UAV) with specific airfoil are studied here. The leading-edge protuberances inspired from the flippers of the humpback whale is introduced in present work to watch its effect on stall delaying and drag reduction. Two installing factors, which are amplitude and wavelength of the protuberances, are considered to study the interaction of leading-edge variation and de-tached vortex. Three changes in both amplitude and wavelength are investigated herein. Generally, the modified models have larger stall angle of attack than that of the baseline model; the difference exists in the attainable lift coefficient and drag reduction.

Original language	English
Pages (from-to)	415-424
Number of pages	10
Journal	Chinese Journal of Aeronautics
Volume	34
Issue number	5
DOIs	https://doi.org/10.1016/j.cja.2020.11.004
State	Published - May 2021

Keywords

Flippers
Flow control
Humpback whale
RANS
Stall delay
UAV

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10.1016/j.cja.2020.11.004

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title = "Aerodynamic performance of a low-Reynolds UAV with leading-edge protuberances inspired by humpback whale flippers",

abstract = "The aerodynamic forces and flowfield on a delta-wing Unmanned Aerial Vehicle (UAV) with specific airfoil are studied here. The leading-edge protuberances inspired from the flippers of the humpback whale is introduced in present work to watch its effect on stall delaying and drag reduction. Two installing factors, which are amplitude and wavelength of the protuberances, are considered to study the interaction of leading-edge variation and de-tached vortex. Three changes in both amplitude and wavelength are investigated herein. Generally, the modified models have larger stall angle of attack than that of the baseline model; the difference exists in the attainable lift coefficient and drag reduction.",

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author = "Yang ZHANG and Xu ZHANG and Yi LI and Min CHANG and Jiakuan XU",

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AU - CHANG, Min

AU - XU, Jiakuan

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AB - The aerodynamic forces and flowfield on a delta-wing Unmanned Aerial Vehicle (UAV) with specific airfoil are studied here. The leading-edge protuberances inspired from the flippers of the humpback whale is introduced in present work to watch its effect on stall delaying and drag reduction. Two installing factors, which are amplitude and wavelength of the protuberances, are considered to study the interaction of leading-edge variation and de-tached vortex. Three changes in both amplitude and wavelength are investigated herein. Generally, the modified models have larger stall angle of attack than that of the baseline model; the difference exists in the attainable lift coefficient and drag reduction.

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KW - Flow control

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Aerodynamic performance of a low-Reynolds UAV with leading-edge protuberances inspired by humpback whale flippers

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Keywords

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