论文信息 - Studies of the flow field near a IMACA 4412 aerofoil at nearly maximum lift

Studies of the flow field near a IMACA 4412 aerofoil at nearly maximum lift

Summary Measurements made at a Mach number of 0.18 and a chord-based Reynolds number of 4·2 x 106 on a constant-chord model having a NACA 4412 aerofoil section are described and compared with the results of flow field calculations. Both the experimental arrangement and the difficulties initially experienced in achieving an adequate approximation to two-dimensional flow above the wing are briefly outlined. The measurements include static pressure distributions on the wing surface and on the wind-tunnel walls above and below the mid-span section of the wing. The main emphasis in the experiment was, however, on defining the development of the upper surface boundary layer through separation (at about 20% chord ahead of the trailing-edge) and on into the wake, making extensive use of laser anemometry to measure mean velocities. In addition, Reynolds stresses were measured in certain parts of the flow field by hot-wire anemometry. The flow field calculations are of the semi-inverse kind in which an inverse momentum-integral treatment of the shear flow, used to avoid difficulties at separation, is coupled to a direct solution of the inviscid flow problem. The main features of the method are outlined.

B. R. Williams | R. Hastings | R. C. Hastings

[1] F.,et al. Prediction of Turbulent Boundary Layers and Wakes in Compressible Flow by a Lag-Entrainment Method , 2022 .

[2] L. Wigton. Viscous-Inviscid Interaction in Transonic Flow. , 1981 .

[3] D A Lovell. An Automatic Wake-Traverse System for Flow-Field Measurements in Large Low-Speed Wind Tunnels. , 1980 .

[4] A. Winkelmann. ON THE OCCURRENCE OF MUSHROOM SHAPED STALL CELLS IN SEPARATED FLOW , 1983 .

[5] LEON TRILLING. Incompressible Aerodynamics , 1961, Nature.

[6] B. Williams,et al. The prediction of separated flow using a viscous-inviscid interaction method , 1985, The Aeronautical Journal (1968).

[7] F. Smith. Interacting flow theory and trailing edge separation – no stall , 1983, Journal of Fluid Mechanics.

[8] Alan J. Wadcock,et al. Flying-hot-wire study of two-dimensional turbulent separation of an NACA 4412 airfoil at maximum lift , 1978 .

[9] J. Green,et al. The prediction of turbulent boundary layer development in compressible flow , 1968, Journal of Fluid Mechanics.

[10] J. E. Carter,et al. A new boundary-layer inviscid iteration technique for separated flow , 1979 .

[11] Correlation and computation of detachment and reattachment of turbulent boundary layers on two-dimensional faired surfaces , 1981 .

[12] Paul S. Granville,et al. THE CALCULATION OF THE VISCOUS DRAG OF BODIES OF REVOLUTION , 1953 .