Induced drag analysis of multi-winglets for aerodynamic performance on NACA 23015 / Zaim Ariefin Azwan Affendi Nual

An eagle can reach high velocities and stay airborne for hours. It is believed that the capability of an eagle to do so is due to the multi-winglets during its gliding and soaring flight without flapping its wings. Multi-winglets as a device for reducing induced drag in unmanned aerial vehicles (UAV...

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Main Author: Azwan Affendi Nual, Zaim Ariefin
Format: Student Project
Language:English
Published: 2020
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Online Access:http://ir.uitm.edu.my/id/eprint/37815/1/37815.pdf
http://ir.uitm.edu.my/id/eprint/37815/
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Institution: Universiti Teknologi Mara
Language: English
id my.uitm.ir.37815
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spelling my.uitm.ir.378152020-12-07T23:25:01Z http://ir.uitm.edu.my/id/eprint/37815/ Induced drag analysis of multi-winglets for aerodynamic performance on NACA 23015 / Zaim Ariefin Azwan Affendi Nual Azwan Affendi Nual, Zaim Ariefin Mechanics applied to machinery. Dynamics Aeronautics. Aeronautical engineering Mechanics of flight: Aerodynamics An eagle can reach high velocities and stay airborne for hours. It is believed that the capability of an eagle to do so is due to the multi-winglets during its gliding and soaring flight without flapping its wings. Multi-winglets as a device for reducing induced drag in unmanned aerial vehicles (UAVs) was tested through a simulation study. The usage of multi-winglets as a wingtip device is inspired by the bald eagle that is an exceptionally efficient creature in terms of aerodynamics. The objective of this research is to study the aerodynamic effect of implementing multi-winglets on UAVs in terms of induced drag and lift coefficient. The design of 3 different multi-winglets based on NACA 23015 was computationally modelled. The winglet design with chord length (C) of 216.5 mm, 866 mm wingspan (L) and angles of attack of -5°, 0°, 5°, 10°, 15°, 20° were improvised with multi-winglets of differing amounts at 3 multi-winglets with cant angles of 15° between each winglet, 5 multi-winglets with cant angles of 7.5° between winglets and 7 multi-winglets with cant angles of 5° between each winglets. The three multi-winglet models and the baseline were tested at Unmanned Aerial Vehicles (UAVs) flying speed at 30 m/s with the boundary condition of air temperature at 293.3 K. The investigation has shown that the multi-winglets can improve the aerodynamic performance of airfoil in reduction of induced drag and increase of lift coefficient. 2020-08 Student Project NonPeerReviewed text en http://ir.uitm.edu.my/id/eprint/37815/1/37815.pdf Azwan Affendi Nual, Zaim Ariefin (2020) Induced drag analysis of multi-winglets for aerodynamic performance on NACA 23015 / Zaim Ariefin Azwan Affendi Nual. [Student Project] (Unpublished)
institution Universiti Teknologi Mara
building Tun Abdul Razak Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Mara
content_source UiTM Institutional Repository
url_provider http://ir.uitm.edu.my/
language English
topic Mechanics applied to machinery. Dynamics
Aeronautics. Aeronautical engineering
Mechanics of flight: Aerodynamics
spellingShingle Mechanics applied to machinery. Dynamics
Aeronautics. Aeronautical engineering
Mechanics of flight: Aerodynamics
Azwan Affendi Nual, Zaim Ariefin
Induced drag analysis of multi-winglets for aerodynamic performance on NACA 23015 / Zaim Ariefin Azwan Affendi Nual
description An eagle can reach high velocities and stay airborne for hours. It is believed that the capability of an eagle to do so is due to the multi-winglets during its gliding and soaring flight without flapping its wings. Multi-winglets as a device for reducing induced drag in unmanned aerial vehicles (UAVs) was tested through a simulation study. The usage of multi-winglets as a wingtip device is inspired by the bald eagle that is an exceptionally efficient creature in terms of aerodynamics. The objective of this research is to study the aerodynamic effect of implementing multi-winglets on UAVs in terms of induced drag and lift coefficient. The design of 3 different multi-winglets based on NACA 23015 was computationally modelled. The winglet design with chord length (C) of 216.5 mm, 866 mm wingspan (L) and angles of attack of -5°, 0°, 5°, 10°, 15°, 20° were improvised with multi-winglets of differing amounts at 3 multi-winglets with cant angles of 15° between each winglet, 5 multi-winglets with cant angles of 7.5° between winglets and 7 multi-winglets with cant angles of 5° between each winglets. The three multi-winglet models and the baseline were tested at Unmanned Aerial Vehicles (UAVs) flying speed at 30 m/s with the boundary condition of air temperature at 293.3 K. The investigation has shown that the multi-winglets can improve the aerodynamic performance of airfoil in reduction of induced drag and increase of lift coefficient.
format Student Project
author Azwan Affendi Nual, Zaim Ariefin
author_facet Azwan Affendi Nual, Zaim Ariefin
author_sort Azwan Affendi Nual, Zaim Ariefin
title Induced drag analysis of multi-winglets for aerodynamic performance on NACA 23015 / Zaim Ariefin Azwan Affendi Nual
title_short Induced drag analysis of multi-winglets for aerodynamic performance on NACA 23015 / Zaim Ariefin Azwan Affendi Nual
title_full Induced drag analysis of multi-winglets for aerodynamic performance on NACA 23015 / Zaim Ariefin Azwan Affendi Nual
title_fullStr Induced drag analysis of multi-winglets for aerodynamic performance on NACA 23015 / Zaim Ariefin Azwan Affendi Nual
title_full_unstemmed Induced drag analysis of multi-winglets for aerodynamic performance on NACA 23015 / Zaim Ariefin Azwan Affendi Nual
title_sort induced drag analysis of multi-winglets for aerodynamic performance on naca 23015 / zaim ariefin azwan affendi nual
publishDate 2020
url http://ir.uitm.edu.my/id/eprint/37815/1/37815.pdf
http://ir.uitm.edu.my/id/eprint/37815/
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