Abstract
The free-to-roll wing rock CFD simulation of a slender 80-degree delta wing is performed using the Dynamic Fluid-Body Interaction (DFBI) framework and the overlap/chimera mesh method. The purpose of the simulations carried out was to test the capabilities of the current CFD methods for predicting wing rock motion over a wide range of angles of attack, including strong conical vortex interactions and vortex breakdown phenomenon. The predictions of steady
aerodynamic dependencies and the aerodynamic stability derivatives based on forced oscillation tests along with the time histories of the wing rock motion of an 80-degree delta wing are in good qualitative and quantitative agreement with the available wind tunnel experimental data demonstrating onset of the wing rock motion. At higher angles of attack with vortex breakdown CFD simulations demonstrated an excitation of the large amplitude regular oscillations or the
low amplitude chaotic oscillations depending on the applied initial conditions.
aerodynamic dependencies and the aerodynamic stability derivatives based on forced oscillation tests along with the time histories of the wing rock motion of an 80-degree delta wing are in good qualitative and quantitative agreement with the available wind tunnel experimental data demonstrating onset of the wing rock motion. At higher angles of attack with vortex breakdown CFD simulations demonstrated an excitation of the large amplitude regular oscillations or the
low amplitude chaotic oscillations depending on the applied initial conditions.
Original language | English |
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Title of host publication | 10th EUCASS Conference |
Publisher | European Conference for Aeronautics and Space Sciences |
Number of pages | 20 |
Publication status | Published - 2 Oct 2023 |
Event | 10th Aerospace Europe Conference : Joint 10th EUCASS-9th CEAS Conference - Lausanne, Switzerland Duration: 9 Jul 2023 → 13 Jul 2023 https://eucass-ceas-2023.eu/ |
Conference
Conference | 10th Aerospace Europe Conference |
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Country/Territory | Switzerland |
City | Lausanne |
Period | 9/07/23 → 13/07/23 |
Internet address |