A new method for improving the aircraft landing performance

Kun Ye; Zhengyin Ye; Zhan Qu

A new method for improving the aircraft landing performance

Kun Ye, Zhengyin Ye, Zhan Qu

School of Aeronautics

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

Abstract

A new aerodynamic technique is presented. The main principle is to design a movable part on the upper surface of the wing. When the aircraft access to the relatively larger angle of attack in the period of landing, a step can be formed by appropriately raising the downstream tip of the movable part, thus a stable trapped vortex is generated to control the flow above the upper surface of the wing. At the same time, the Gurney flap which is installed at the trailing-edge of the wing is operated. Both effects of enlarging the lift and the stall angle of attack will be achieved. By the numerical simulation of DLR-F4, it is shown that the airfoil's maximum lift coefficient can be increased by 17.37%, and the stall angle of attack increases from 11 degree to 13 degree (increased by 18.18%). It is believed that the method presented to be a promising one for improving the aircraft landing performance for the small aircraft.

Original language	English
Pages (from-to)	636-642
Number of pages	7
Journal	Yingyong Lixue Xuebao/Chinese Journal of Applied Mechanics
Volume	29
Issue number	6
State	Published - Dec 2012

Keywords

High angle of attack
Lift device
Numerical simulation
Separated vortex
The controlling of stream

Cite this

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N2 - A new aerodynamic technique is presented. The main principle is to design a movable part on the upper surface of the wing. When the aircraft access to the relatively larger angle of attack in the period of landing, a step can be formed by appropriately raising the downstream tip of the movable part, thus a stable trapped vortex is generated to control the flow above the upper surface of the wing. At the same time, the Gurney flap which is installed at the trailing-edge of the wing is operated. Both effects of enlarging the lift and the stall angle of attack will be achieved. By the numerical simulation of DLR-F4, it is shown that the airfoil's maximum lift coefficient can be increased by 17.37%, and the stall angle of attack increases from 11 degree to 13 degree (increased by 18.18%). It is believed that the method presented to be a promising one for improving the aircraft landing performance for the small aircraft.

AB - A new aerodynamic technique is presented. The main principle is to design a movable part on the upper surface of the wing. When the aircraft access to the relatively larger angle of attack in the period of landing, a step can be formed by appropriately raising the downstream tip of the movable part, thus a stable trapped vortex is generated to control the flow above the upper surface of the wing. At the same time, the Gurney flap which is installed at the trailing-edge of the wing is operated. Both effects of enlarging the lift and the stall angle of attack will be achieved. By the numerical simulation of DLR-F4, it is shown that the airfoil's maximum lift coefficient can be increased by 17.37%, and the stall angle of attack increases from 11 degree to 13 degree (increased by 18.18%). It is believed that the method presented to be a promising one for improving the aircraft landing performance for the small aircraft.

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KW - Numerical simulation

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KW - The controlling of stream

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A new method for improving the aircraft landing performance

Abstract

Keywords

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