论文信息 - AN IMPROVED THREE-DIMENSIONAL AERODYNAMICS MODEL FOR HELICOPTER AIRLOADS PREDICTION

AN IMPROVED THREE-DIMENSIONAL AERODYNAMICS MODEL FOR HELICOPTER AIRLOADS PREDICTION

The importance of unsteady aerodynamic effects due to rotor blade motion is demonstrated for a helicopter in high-speed forward flight. These unsteady effects are modeled as surface boundary conditions to a three-dimensional, unsteady Computational Fluid Dynamics (CFD) code called the Full-Potential Rotor Code (FPR). These boundary conditions cause significant changes in the computed lift and pitching moment at the front and rear of the rotor disk. Airloads from the modified FPR code are then iteratively coupled with the helicopter comprehensive code, CAMRAD/JA. Computed airloads show good agreement with flight-test data when lift values from the FPR code are used in the coupled calculation. However, the computed airloads from CAMRAD/JA along also show good agreement with the experimental data. Thus for this case one cannot demonstrate a significant improvement in computed airloads with the hybrid coupled scheme. The addition of the pitching moment values from the FPR code into the CAMRAD/JA calculation slows down the overall iterative convergence and does not yield any improvement in the final results.

Roger C. Strawn | John Bridgeman | R. Strawn | J. Bridgeman

[1] R. Strawn,et al. Conservative full-potential model for unsteady transonic rotor flows , 1987 .

[2] Wayne Johnson,et al. Correlation of Puma airloads: Lifting-line and wake calculation , 1989 .

[3] Wesley Johnson. Development of a comprehensive analysis for rotorcraft. II - Aircraft model, solution procedure and applications , 1981 .

[4] C. Tung,et al. Numerical solution of the full-potential equation for rotors and oblique wings using a new wake model , 1985 .

[5] Alan Jones,et al. Correlation of Puma airloads: Evaluation of CFD prediction methods , 1989 .

[6] T. Yang,et al. Aeroelastic time response analysis of thin airfoils by transonic code LTRAN2 , 1981 .

[7] Roger C. Strawn,et al. Prediction of unsteady transonic rotor loads with a full-potential rotor code , 1987 .

[8] Gloria K. Yamauchi,et al. Correlation of SA349/2 helicopter flight-test data with a comprehensive rotorcraft model , 1988 .

[9] Inderjit Chopra,et al. Blade Response Calculations Using Three-Dimensional Aerodynamic Modeling , 1991 .

[10] W. R. Johnson,et al. The Prediction of Transonic Flows on an Advancing Rotor , 1986 .

[11] J. Steger,et al. A conservative finite difference algorithm for the unsteady transonic potential equation in generalized coordinates , 1982 .