论文信息 - Experimental control of compressible OA209 dynamic stall by air jets

Experimental control of compressible OA209 dynamic stall by air jets

The experimental investigation of constant blowing air jets as Fluidic Control Devices (FCDs) for helicopter dynamic stall control is described. A carbon fibre airfoil of constant OA209 cross-section was fitted with a pneumatic system to deliver dry compressed air as jets for flow control at total pressures of up to 10 bar. The experiment used porthole jets of radius 1% chord, positioned at 10% chord and with spacing 6.7% chord. The positive dynamic stall control effects were demonstrated at Mach 0.3, 0.4 and 0.5 for deep dynamic stall test cases with the best test cases reducing the pitching moment peak after the main stall by 84%, while increasing the mean lift over one pitching cycle by 37%. The conclusions from the experiments are supported by 3D URANS computations of the pitching airfoil with flow control using the DLR-TAU code.

Kai Richter | Holger Mai | Anthony Donald Gardner | Dietmar Neuhaus

[1] L. Mack,et al. Transition prediction and linear stability theory , 1977 .

[2] Kai Richter,et al. Dynamic stall control by leading edge vortex generators , 2006 .

[3] François Richez,et al. Dynamic Stall Control Using Deployable Leading-Edge Vortex Generators , 2011 .

[4] Daniel Arnal. Boundary layer transition: Predictions based on linear theory , 1994 .

[5] Kai Richter,et al. Numerical investigation of air jets for dynamic stall control on the OA209 airfoil , 2011 .

[6] Redstone Arsenal,et al. Passive Control of Compressible Dynamic Stall , 2008 .

[7] Kai Richter,et al. Improved Two-Dimensional Dynamic Stall Prediction with Structured and Hybrid Numerical Methods , 2011 .

[8] Kai Richter,et al. Experimental investigation of dynamic stall performance for the EDI-M109 and EDI-M112 airfoils , 2013 .

[9] 徐健,et al. OKT , 1993 .