A lifting-surface theory has been developed for a helicopter rotor in forward flight for compressible and incompressible flow. The method utilizes the concept of the linearized acceleration potential and makes use of the doublet lattice procedure. Calculations demonstrating the application of the method are given in terms of the lift distribution on a one-bladed rotor, a two-bladed rotor, and a rotor with swept-forward and swept-back tips. Also, the lift on a rotor vibrating in a pitching mode at 4 per revolution is given. Compressibility effects and interference effects for a two-bladed rotor are discussed.
Compressible, Unsteady Lifting-Surface Theory for a Helicopter Rotor in Forward Flight
1985
21 pages
Report
Keine Angabe
Englisch
Unsteady flow around helicopter rotor blade sections in forward flight
Online Contents | 1999
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