A full potential flow analysis with realistic wake influence for helicopter rotor airload prediction

A 3-D, quasi-steady, full potential flow solver was adapted to include realistic wake influence for the aerodynamic analysis of helicopter rotors. The method is based on a finite difference solution of the full potential equation, using an inner and outer domain procedure for the blade flowfield to accommodate wake effects. The nonlinear flow is computed in the inner domain region using a finite difference solution method. The wake is modeled by a vortex lattice using prescribed geometry techniques to allow for the inclusion of realistic rotor wakes. The key feature of the analysis is that vortices contained within the finite difference mesh (inner domain) were treated with a vortex embedding technique while the influence of the remaining portion of the wake (in the outer domain) is impressed as a boundary condition on the outer surface of the finite difference mesh. The solution procedure couples the wake influence with the inner domain solution in a consistent and efficient solution process. The method has been applied to both hover and forward flight conditions. Correlation with subsonic and transonic hover airload data is shown which demonstrates the merits of the approach.

[1]  F. X. Caradonna,et al.  Numerical modeling of rotor flows with a conservative form of the full-potential equations , 1986 .

[2]  Alfred Gessow,et al.  Aerodynamics of the Helicopter , 1981 .

[3]  R. Gray AN AERODYNAMIC ANALYSIS OF A SINGLEBLADED ROTOR IN HOVERING AND LOW- SPEED FORWARD FLIGHT AS DETERMINED FROM SMOKE STUDIES OF THE VORTICITY DISTRIBUTION IN THE WAKE , 1956 .

[4]  James L. Tangler,et al.  A Prescribed Wake Lifting Surface Hover Performance Analysis , 1977 .

[5]  T. A. Egolf,et al.  A Full Potential Rotor Analysis With Wake Influence Using an Inner-Outer Domain Technique , 1987 .

[6]  A. J. Landgrebe,et al.  Helicopter rotor wake geometry and its influence in forward flight. Volume 2: Wake geometry charts , 1983 .

[7]  A. Jameson,et al.  Numerical calculation of the transonic flow past a swept wing. [FLO 22] , 1977 .

[8]  E. M. Murman,et al.  Solution method for a hovering helicopter rotor using the Euler equations , 1985 .

[9]  Anton J. Landgrebe,et al.  An analytical method for predicting rotor wake geometry , 1969 .

[10]  A. J. Landgrebe,et al.  A prescribed wake rotor inflow and flow field prediction analysis, user's manual and technical approach , 1982 .

[11]  Interactions of Airfoils with Gusts and Concentrated Vortices in Unsteady Transonic Flow , 1983 .

[12]  F. X. Caradonna,et al.  Finite difference modeling of rotor flows including wake effects , 1984 .

[13]  E. B. Klunker,et al.  Contribution to methods for calculating the flow about thin lifting wings at transonic speeds: Analytic expressions for the far field , 1971 .

[14]  Anton J. Landgrebe,et al.  Prediction Of Helicopter Induced Flow Velocities Using The Rotorcraft Wake Analysis , 1976 .

[15]  Anton J. Landgrebe,et al.  Rotorcraft Wake Analysis for the Prediction of Induced Velocities , 1976 .

[16]  D. R. Clark Lifting Surface Method For Hover/Climb Airloads , 1979 .

[17]  K. Ramachandran,et al.  The treatment of convected vortices in compressible potential flow , 1983 .

[18]  A. J. Landgrebe Overview of helicopter wake and airloads technology , 1985 .

[19]  Anton J. Landgrebe,et al.  The Wake Geometry of a Hovering Helicopter Rotor and its Influence on Rotor Performance , 1972 .

[20]  A. J. Landgrebe,et al.  Generalized wake geometry for a helicopter in forward flight and effect of wake deformation on airloads , 1984 .

[21]  F. X. Caradonna,et al.  Experimental and Analytical Studies of a Model Helicopter Rotor in Hover , 1980 .

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

[23]  J. P. Rabbott,et al.  A PRESENTATION OF MEASURED AND CALCULATED FULL-SCALE ROTOR BLADE AERODYNAMIC AND STRUCTURAL LOADS , 1966 .

[24]  Anton J. Landgrebe,et al.  An Analytical and Experimental Investigation of Helicopter Rotor Hover Performance and Wake Geometry Characteristics , 1971 .

[25]  Anton J. Landgrebe,et al.  An Investigation of the Quantitative Applicability of Model Helicopter Rotor Wake Patterns Obtained from a Water Tunnel , 1971 .

[26]  T. A. Egolf,et al.  Hovering rotor airload prediction using a full potential flow analysis with realistic wake geometry , 1985 .

[27]  A J Landgrebe,et al.  Helicopter Rotor Wake Geometry and Its Influence in Forward Flight. Volume 1. Generalized Wake Geometry and Wake Effect on Rotor Airloads and Performance. , 1983 .

[28]  M. E. Tauber Computerized aerodynamic design of a transonically 'quiet' blade , 1984 .

[29]  B. E. Wake,et al.  Solution of the unsteady Euler equations for fixed and rotor wing configurations , 1986 .