In view of the strong need for a well-documented set of experimental data which is suitable for the validation and/or calibration of modern Computational Fluid Dynamics codes, the Benchmark Models Program was initiated by the Structural Dynamics Division of the NASA Langley Research Center. One of the models in the program, the Benchmark Active Controls Testing Model, consists of a rigid wing of rectangular planform with a NACA 0012 profile and three control surfaces (a trailing-edge control surface, a lower-surface spoiler, and an upper-surface spoiler). The model is affixed to a flexible mount system which allows only plunging and/or pitching motion. An approximate analytical determination of the forces required to move this model, with its control surfaces fixed, in pure plunge and pure pitch at a number of test conditions is included. This provides a good indication of the type of actuator system required to generate the aerodynamic data resulting from pure plunging and pure pitching motion, in which much interest was expressed. The analysis makes use of previously obtained numerical results.
[1]
Robert M. Bennett,et al.
A status report on a model for Benchmark active controls testing
,
1991
.
[2]
W. M. Adams,et al.
A Digital Program for Calculating the Interaction Between Flexible Structures, Unsteady Aerodynamics and Active Controls
,
1979
.
[3]
Robert M. Bennett,et al.
NACA 0012 benchmark model experimental flutter results with unsteady pressure distributions
,
1992
.
[4]
Bryan E. Dansberry.
Dynamic characteristics of a Benchmark models program supercritical wing
,
1992
.
[5]
Robert M. Bennett,et al.
The benchmark aeroelastic models program: Description and highlights of initial results
,
1992
.
[6]
J. R. Newsom,et al.
A method for obtaining reduced-order control laws for high-order systems using optimization techniques
,
1981
.