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Transonic limit cycle oscillation analysis using reduced order aerodynamic models

Publication ,  Conference
Dowell, EH; Thomas, JP; Hall, KC
Published in: 19th AIAA Applied Aerodynamics Conference
December 1, 2001

Limit cycle oscillations have been observed in flight operations of modern aircraft, wind tunnel experiments and mathematical models. Both fluid and structural nonlinearities are thought to contribute to these phenomena. With recent advances in reduced order aerodynamic modeling, it is now feasible to analyze limit cycle oscillations that may occur in transonic flow including the effects of structural and fluid nonlinearities. In this paper an airfoil with control surface freeplay (a common structural nonlinearity) is used to investigate transonic flutter and limit cycle oscillations. The reduced order aerodynamic model used in this paper assumes the shock motion is small and in proportion to the structural motions. © 2001 by Earl H. Dowell, Jeffrey P. Thomas, and Kenneth C. Hall.

Duke Scholars

Published In

19th AIAA Applied Aerodynamics Conference

Publication Date

December 1, 2001
 

Citation

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Dowell, E. H., Thomas, J. P., & Hall, K. C. (2001). Transonic limit cycle oscillation analysis using reduced order aerodynamic models. In 19th AIAA Applied Aerodynamics Conference.
Dowell, E. H., J. P. Thomas, and K. C. Hall. “Transonic limit cycle oscillation analysis using reduced order aerodynamic models.” In 19th AIAA Applied Aerodynamics Conference, 2001.
Dowell EH, Thomas JP, Hall KC. Transonic limit cycle oscillation analysis using reduced order aerodynamic models. In: 19th AIAA Applied Aerodynamics Conference. 2001.
Dowell, E. H., et al. “Transonic limit cycle oscillation analysis using reduced order aerodynamic models.” 19th AIAA Applied Aerodynamics Conference, 2001.
Dowell EH, Thomas JP, Hall KC. Transonic limit cycle oscillation analysis using reduced order aerodynamic models. 19th AIAA Applied Aerodynamics Conference. 2001.

Published In

19th AIAA Applied Aerodynamics Conference

Publication Date

December 1, 2001