TY - CHAP
T1 - PREDICTION OF HELICOPTER ROTOR DISCRETE FREQUENCY NOISE
T2 - A COMPUTER PROGRAM INCORPORATING REALISTIC BLADE MOTIONS AND ADVANCED ACOUSTIC FORMULATION.
AU - Brentner, Kenneth S.
PY - 1986/10
Y1 - 1986/10
N2 - A computer program has been developed at the NASA Langley Research Center to predict the discrete frequency noise of conventional and advanced helicopter rotors. The program, called WOPWOP, uses the most advanced subsonic formulation of Farassat that is less sensitive to errors and is valid for nearly all helicopter rotor geometries and flight conditions. A brief derivation of the acoustic formulation is presented along with a discussion of the numerical implementation of the formulation. The computer program uses realistic helicopter blade motion and aerodynamic loadings, input by the user, for noise calculation in the time domain. A detailed definition of all the input variables, default values, and output data is included.
AB - A computer program has been developed at the NASA Langley Research Center to predict the discrete frequency noise of conventional and advanced helicopter rotors. The program, called WOPWOP, uses the most advanced subsonic formulation of Farassat that is less sensitive to errors and is valid for nearly all helicopter rotor geometries and flight conditions. A brief derivation of the acoustic formulation is presented along with a discussion of the numerical implementation of the formulation. The computer program uses realistic helicopter blade motion and aerodynamic loadings, input by the user, for noise calculation in the time domain. A detailed definition of all the input variables, default values, and output data is included.
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M3 - Chapter
AN - SCOPUS:0022791329
BT - NASA Technical Memorandum
ER -