Commercial aircraft performance improvement using winglets

Commercial aircraft performance improvement using winglets

Aerodynamic drag force breakdown of a typical transport aircraft shows that lift-induced drag can amount to as much as 40% of total drag at cruise conditions and 80-90% of the total drag in take-off configuration. One way of reducing lift-induced drag is by using wing-tip devices. By applying severa...

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Bibliographic Details
Main Authors: Gavrilović Nikola N., Rašuo Boško P., Dulikravich George S., Parezanović Vladimir B.
Format: Article
Language:English
Published: University of Belgrade - Faculty of Mechanical Engineering, Belgrade 2015-01-01
Series:FME Transactions
Subjects:
winglet
bionics
computational fluid dynamics
drag reduction
lift-induced drag
optimization
Online Access:https://scindeks-clanci.ceon.rs/data/pdf/1451-2092/2015/1451-20921501001G.pdf
Description
Summary:Aerodynamic drag force breakdown of a typical transport aircraft shows that lift-induced drag can amount to as much as 40% of total drag at cruise conditions and 80-90% of the total drag in take-off configuration. One way of reducing lift-induced drag is by using wing-tip devices. By applying several types of winglets, which are already used on commercial airplanes, we study their influence on aircraft performance. Numerical investigation of five configurations of winglets is described and preliminary indications of their aerodynamic performance are provided. Moreover, using advanced multi-objective design optimization software an optimal one-parameter winglet configuration was determined that simultaneously minimizes drag and maximizes lift.
ISSN:1451-2092
2406-128X

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