Aerodynamic Characteristics of Blerak Winglet

Farook, None Mohamed Hussain; Chitharanjan, Vishnu Kumar Gettin

doi:10.37934/arfmts.103.2.4054

ARFMTS

2023

DOI: 10.37934/arfmts.103.2.4054

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Aerodynamic Characteristics of Blerak Winglet

None Mohamed Hussain Farook

Vishnu Kumar Gettin Chitharanjan

Abstract: The induced drag created by wingtip vortices has a significant impact on aircraft performance. Winglets are wingtip extensions that are intended to reduce the creation of vortices and increase the fuel efficiency. The present study is based on analyzing different winglets planform for aircraft at various angles of attack (AOA) to improve the aerodynamic efficiency. The Finite Volume Method in pressure-based solver along with the Realizable k - ɛ turbulence model, with standard atmospheric boundary conditions i… Show more

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2024

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Cited by 2 publications

References 13 publications

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Recent Advancements in Fluid Dynamics: Drag Reduction, Lift Generation, Computational Fluid Dynamics, Turbulence Modelling, and Multiphase Flow

Wang,

Animasaun,

Muhammad

et al. 2024

Arab J Sci Eng

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Recent Advancements in Fluid Dynamics: Drag Reduction, Lift Generation, Computational Fluid Dynamics, Turbulence Modelling, and Multiphase Flow

Wang,

Animasaun,

Muhammad

et al. 2024

Arab J Sci Eng

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Investigation of various winglets using computational fluid dynamics for subsonic aircraft

Jayanth,

Sagar,

Rajashekar

et al. 2024

J. Phys.: Conf. Ser.

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The tiny, upturned, or downturned extensions at the tips of an aircraft’s wings are designated as winglets. By minimizing drag and improving fuel efficiency, they are introduced to increase the aircraft’s aerodynamic efficiency. Winglets are now a day’s employed in the commercial aircraft to minimise the induced effect caused by wing tip vortices produced at low subsonic speeds. In this article, we have selected NACA 2412, from which we have created a swept back wing with a 20-degree sweep angle that has eight distinct winglet configurations. SolidWorks 2023 is used for design work, and ANSYS 19.2 is used for analysis. The analysis is carried out by changing the angle of attack (AOA) from -6 degrees to 20 degrees with an incremental step of 2 degrees. Here, we have used the k-epsilon turbulence model to capture the turbulence and 100 m/s velocity is maintained throughout the analysis. From this analysis, a potential solution of aerodynamic co-efficient (lift, drag, cl, cd and cl/cd) are being observed. Blended winglet with cant angle 35 degrees produces high lift-to-drag ratio compared with another winglet configuration. The insights gained from the study are plotted in various graphs such as cl vs alpha, cd v/s alpha and cl/cd v/s alpha and the CFD results show a considerable improvement in aircraft’s performance after using winglets. Aluminium alloy’s high strength to weight ratio, robust corrosion resistance, enhanced conductivity, and outstanding ductility qualities will make it easier for us to manufacture winglets in the future.

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Aerodynamic Characteristics of Blerak Winglet

Cited by 2 publications

References 13 publications

Recent Advancements in Fluid Dynamics: Drag Reduction, Lift Generation, Computational Fluid Dynamics, Turbulence Modelling, and Multiphase Flow

Recent Advancements in Fluid Dynamics: Drag Reduction, Lift Generation, Computational Fluid Dynamics, Turbulence Modelling, and Multiphase Flow

Investigation of various winglets using computational fluid dynamics for subsonic aircraft

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