Aerodynamic parametric studies and sensitivity analysis for rotor blades in axial flightThe analytical capability is offered for aerodynamic parametric studies and sensitivity analyses of rotary wings in axial flight by using a 3D undistorted wake model in curved lifting line theory. The governing equations are solved by both the Multhopp Interpolation technique and the Vortex Lattice method. The singularity from the bound vortices is eliminated through the Hadamard's finite part concept. Good numerical agreement between both analytical methods and finite differences methods are found. Parametric studies were made to assess the effects of several shape variables on aerodynamic loads. It is found, e.g., that a rotor blade with out-of-plane and inplane curvature can theoretically increase lift in the inboard and outboard regions respectively without introducing an additional induced drag.
Document ID
19920064335
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Chiu, Y. D. (Lockheed Engineering and Sciences Co. Hampton, VA, United States)
Peters, David A. (Georgia Institute of Technology Atlanta, United States)
Date Acquired
August 15, 2013
Publication Date
January 1, 1991
Subject Category
Aerodynamics
Meeting Information
Meeting: AHS International Specialists'' Meeting on Rotorcraft Basic Research