Static Aeroelastic Effects of Formation Flight for Slender Unswept Wings
Hanson, Curtis E. (2009) Static Aeroelastic Effects of Formation Flight for Slender Unswept Wings. Technical Report NASA/TM-2009-214649, Research and Engineering, NASA Dryden Flight Research Center.
Full text available as: |
Abstract
The static aeroelastic equilibrium equations for slender, straight wings are modified to incorporate the effects of aerodynamically-coupled formation flight. A system of equations is developed by applying trim constraints and is solved for component lift distribution, trim angle-of-attack, and trim aileron deflection. The trim values are then used to calculate the elastic twist distribution of the wing box. This system of equations is applied to a formation of two gliders in trimmed flight. Structural and aerodynamic properties are assumed for the gliders, and solution are calculated for flexible and rigid wings in solo and formation flight. It is shown that formation disturbances produce greater twist in the wingtip immersed in the vortex than for either the opposing wingtip or the wings of a similar airplane in solo flight. Changes in the lift distribution, resulting from wing twist, increase the performance benefits of formation flight. A flexible wing in formation flight will require greater aileron deflection to achieve roll trim than a rigid wing.
| EPrint Type: | NASA Technical Memorandum |
|---|---|
| Keywords: | Aeroelastic wing twist, Drag reduction, Formation flight, Sailplane, Wingtip vortices. |
| Subjects: | (01 - 09) Aeronautics: (05) Aircraft Design, Testing And Performance (01 - 09) Aeronautics: (02) Aerodynamics (31 - 39) Engineering: (39) Structural Mechanics |
| ID Code: | 2036 |
| Deposited On: | 26 August 2009 |
| Additional Information: | 35 pages. |
