Aerodynamic coefficients in generalized unsteady thin airfoil theory
Copyright policy )Aerodynamic coefficients in generalized unsteady thin airfoil theory
Two cases are considered: (1) rigid body motion of an airfoil-flap combination consisting of vertical translation of given amplitude, rotation of given amplitude about a specified axis, and rotation of given amplitude of the control surface alone about its hinge; the upwash for this problem is defined mathematically; and (2) sinusoidal gust of given amplitude and wave number, for which the upwash is defined mathematically. Simple universal formulas are presented for the most important aerodynamic coefficients in unsteady thin airfoil theory. The lift and moment induced by a generalized gust are evaluated explicitly in terms of the gust wavelength. Similarly, in the control surface problem, the lift, moment, and hinge moments are given as explicit algebraic functions of hinge location. These results can be used together with any of the standard numerical inversion routines for the elementary loads (pitch and heave).
- College of New Jersey United States
unsteady airfoil theory, airfoil-flap combination, aerodynamic coefficients, Chebyshev polynomial expansions, Jets and cavities, cavitation, free-streamline theory, water-entry problems, airfoil and hydrofoil theory, sloshing, sinusoidal gust, General aerodynamics and subsonic flows, Fluid-solid interactions (including aero- and hydro-elasticity, porosity, etc.)
unsteady airfoil theory, airfoil-flap combination, aerodynamic coefficients, Chebyshev polynomial expansions, Jets and cavities, cavitation, free-streamline theory, water-entry problems, airfoil and hydrofoil theory, sloshing, sinusoidal gust, General aerodynamics and subsonic flows, Fluid-solid interactions (including aero- and hydro-elasticity, porosity, etc.)
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