High-Lift Effect of Bionic Slat Based on Owl Wing

A slat without a cove is built on the basis of a bionic airfoil (i.e. stowed multi-element airfoil), which is extracted from a long-eared owl wing. The three-dimensional models with a deployed slat and a stowed slat are measured in a low-turbulence wind tunnel. The results are used to characterize h...

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Bibliographic Details
Published in:Journal of bionics engineering 2013-10, Vol.10 (4), p.456-463
Main Authors: Ge, Changjiang, Ren, Luquan, Liang, Ping, Zhang, Chengchun, Zhang, Zhihui
Format: Article
Language:English
Subjects:
alula
Angle of attack
Artificial Intelligence
Biochemical Engineering
Bioinformatics
Biomaterials
Biomedical Engineering and Bioengineering
Biomedical Engineering/Biotechnology
bionic slat
Bionics
Coefficients
Complement
Engineering
high-lift effect
leading-edge separation
Lift
low Reynolds number
Slats
Three dimensional models
Wind tunnels
三维模型
仿生
可视化显示
多段翼型
最大升力系数
板条
梯度下降
高扬程
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Summary:A slat without a cove is built on the basis of a bionic airfoil (i.e. stowed multi-element airfoil), which is extracted from a long-eared owl wing. The three-dimensional models with a deployed slat and a stowed slat are measured in a low-turbulence wind tunnel. The results are used to characterize high-lift effect: compared with the stowed slat, the deployed slat works more like a spoiler at low angles of attack, but like a conventional slat or slot at high angles of attack. In addition, it can also increase stall angle and maximum lift coefficient, and postpone the decrease in the gradient of the lift coefficient. At the same time, the flow field visualized around both three-dimensional models suggests the leading-edge separation associated with the decrease in the gradient of the lift coefficient. Furthermore, the related two-dimensional simulation well agrees with the analysis of the lift coefficient, as the complement to the experiment. The bionic slat may be used as reference in the design of leading-edge slats without a cove.
ISSN:1672-6529
2543-2141
DOI:10.1016/S1672-6529(13)60243-7