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<p><span style="color: rgb(26, 26, 26); font-family: &quot;Noto Sans&quot;, sans-serif; font-size: 16px; background-color: rgb(250, 250, 250);">In this work the aerodynamic performance of winglets of modern sailplanes were investigated. First isolated wings with winglets were designed and investigated and compared to the wings without winglets, showing the fundamental working principle and effectiveness of winglets. Then a complete sailplane was designed with an integrated inviscid flow method with XFLR5 [1] combined with Navier-Stokes CFD with Siemens PLM STAR CCM+ computations. In such a way a modern sailplane was designed for operation with winglets. Using this modern sailplane design the impact of winglets on sailplanes was investigated in detail. This modern sailplane was simulated with CFD in the configurations without winglets and with two modern advanced winglets and their aerodynamic characteristics and performance were investigated and compared. All aerodynamic results are analyzed and shown in detail.</span><br></p>
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November 1–5, 2021
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The website of Coburg University of Applied Sciences was translated using translation software provided by a third-party provider such as DeepL. The official text is the German version of the website. No liability is assumed, either explicitly or implicitly, for the accuracy, reliability, or correctness of the translations into another language.

Aerodynamic Performance Analysis Of Winglets Of Modern Sailplanes

In this work the aerodynamic performance of winglets of modern sailplanes were investigated. First isolated wings with winglets were designed and investigated and compared to the wings without winglets, showing the fundamental working principle and effectiveness of winglets. Then a complete sailplane was designed with an integrated inviscid flow method with XFLR5 [1] combined with Navier-Stokes CFD with Siemens PLM STAR CCM+ computations. In such a way a modern sailplane was designed for operation with winglets. Using this modern sailplane design the impact of winglets on sailplanes was investigated in detail. This modern sailplane was simulated with CFD in the configurations without winglets and with two modern advanced winglets and their aerodynamic characteristics and performance were investigated and compared. All aerodynamic results are analyzed and shown in detail.

Titel:

Aerodynamic Performance Analysis Of Winglets Of Modern Sailplanes

Veröffentlichungsdatum:

25.01.2022

Publikationsart:

Beitrag zu wissenschaftlicher Konferenz/Tagung

Forschungsschwerpunkt:

Medien:

ASME 2021 International Mechanical Engineering Congress and Exposition IMECE2021 November 1–5, 2021 Virtual, Online

DOI:

https://doi.org/10.1115/IMECE2021-69672

Weblink:

Heft:

Band:

10

Artikelnummer:

ISBN:

978-0-7918-8566-6

Autoren:

J. Kästner, Philipp Epple, Michael Steppert

Medien:

ASME 2021 International Mechanical Engineering Congress and Exposition IMECE2021 November 1–5, 2021 Virtual, Online

Herausgeber:

Seiten:

Open Access:

Peer reviewed:

Ja

Zitierung:

Kästner , J.; Epple, Philipp; Steppert, Michael (2022): Aerodynamic Performance Analysis Of Winglets Of Modern Sailplanes. ASME 2021 International Mechanical Engineering Congress and Exposition IMECE2021 November 1–5, 2021 Virtual, Online 10. DOI: 10.1115/IMECE2021-69672

Autoren:

J. Kästner, Philipp Epple, Michael Steppert