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Numerical investigations of subscale flexible high aspect ratio aircraft on a dynamic wind tunnel rig

Banneheka Navaratna, Punsara D.; Pontillo, Alessandro; Rezgui, Djamel; Lowenberg, Mark H.; Neild, Simon A.; Cooper, Jonathan E.

Authors

Punsara D. Banneheka Navaratna

Djamel Rezgui

Mark H. Lowenberg

Simon A. Neild

Jonathan E. Cooper



Abstract

High aspect ratio wings have been a major topic for research due to their capability to improve the aerodynamic efficiency of modern aircraft. Many numerical studies have shown their flexibility causing nonlinearity through geometric effects and their impact on internal loads and dynamics, such as reduced flutter speed and coupling with the aircraft body causing body freedom flutter. Experimental work is present in the literature for validation of cantilever wing models but only a few have implemented wind tunnel testing on dynamically-mounted full-span aircraft models. The work presented here develops a rigid-flexible coupled numerical model for a wind tunnel test platform known as the 5-degree-of-freedom manoeuvre rig. This model is used for the simulation of a full-span flexible model aircraft constrained by the rig for the investigation of the coupling between rigid body and flexible modes together with geometric nonlinear effects. The modeling of the wing flexibility is based on a reduced order geometrically exact structural method linked with a vortex lattice aerodynamic model. The aircraft fuselage and empennage, and the manoeuvre rig, are modelled as rigid bodies. The findings of the study will aid future experimental wind tunnel explorations.

Presentation Conference Type Conference Paper (published)
Conference Name AIAA SCITECH 2023 Forum
Start Date Jan 23, 2023
End Date Jan 27, 2023
Acceptance Date Jan 23, 2023
Online Publication Date Jan 19, 2023
Publication Date Jan 19, 2023
Deposit Date Apr 22, 2024
DOI https://doi.org/10.2514/6.2023-1559
Public URL https://uwe-repository.worktribe.com/output/11886247