Browse > Article

Active Control of Flow Noise Sources in Turbulent Boundary Layer on a Flat-Plate Using Piezoelectric Bimorph Film  

Song, Woo-Seog (Department of Mechanical Engineering, College of Engineering, Inha University)
Lee, Seung-Bae (Department of Mechanical Engineering, College of Engineering, Inha University)
Shin, Dong-Shin (Department of Mechanical System Design Engineering, College of Engineering, Hongik University)
Na, Yang (CAESIT, Department of Mechanical Engineering, Konkuk University)
Publication Information
Journal of Mechanical Science and Technology / v.20, no.11, 2006 , pp. 1993-2001 More about this Journal
Abstract
The piezoelectric bimorph film, which, as an actuator, can generate more effective displacement than the usual PVDF film, is used to control the turbulent boundary-layer flow. The change of wall pressures inside the turbulent boundary layer is observed by using the multi-channel microphone array flush-mounted on the surface when actuation at the non-dimensional frequency $f_b^+$:=0.008 and 0.028 is applied to the turbulent boundary layer. The wall pressure characteristics by the actuation to produce local displacement are more dominantly influenced by the size of the actuator module than the actuation frequency. The movement of large-scale turbulent structures to the upper layer is found to be the main mechanism of the reduction in the wall- pressure energy spectrum when the 700$700{\nu}/u_{\tau}$-long bimorph film is periodically actuated at the non- dimensional frequency $f_b^+$:=0.008 and 0.028. The biomorph actuator is triggered with the time delay for the active forcing at a single frequency when a 1/8' pressure-type, pin-holed microphone sensor detects the large-amplitude pressure event by the turbulent spot. The wall-pressure energy in the late-transitional boundary layer is partially reduced near the convection wavenumber by the open-loop control based on the large amplitude event.
Keywords
Flow Control; Piezoelectric Bimorph; Wavenumber-Frequency Spectrum;
Citations & Related Records

Times Cited By Web Of Science : 0  (Related Records In Web of Science)
Times Cited By SCOPUS : 0
연도 인용수 순위
  • Reference
1 Choi, H. and Moin, P., 1990, 'On the SpaceTime Characteristics of Wall-Pressure Fluctuations,' physics of Fluids A, Vol. 2, pp. 1450-1460   DOI
2 Abraham, B. M. and Keith, W. L., 1998, 'Direct Measurements of Turbulent Boundary Layer Wall Pressure Wavenumber-Frequency Spectra,' ASME J. Fluids Eng., Vol. 20, pp.29-39
3 Wang, M., Lele, S. K., Moin, P., 1996, 'Sound Radiation during Local Breakdown in a low Mach-number Boundary Layer,' J. Fluid Mech., Vol. 319, pp. 311-328   DOI
4 Powell, A., 1960, 'Aerodynamic Noise and the Plane Boundary,' J.A.S.A., Vol. 32, pp. 982-990   DOI
5 Jeon, W. -Po and Blackwelder, R. F., 2000, 'Perturbations in the Wall Region Using Flush Mounted Piezoceramic Actuators,' Exps. Fluids, Vol. 28, No.6, pp.485-496   DOI
6 Blackwelder, R. F. and Haritonidis, J. H., 1983, 'Scaling of the Bursting Frequency in Turbulent Layers,' J. Fluid Mech., Vol. 132, pp. 87-103   DOI   ScienceOn
7 Smith, B. L. and Glezer, A., 1998, 'The Formation and Evolution of Synthetic Jets,' physics of Fluids, Vol. 10, pp. 2281-2297   DOI   ScienceOn
8 Lee, S. and Kim, H. -J., 1999, 'Experimental Study on Wall Pressure Fluctuations in the Turbulent Boundary Layer on a Flat-Plate,' J. KSME, Part B, 23, No.6, pp. 722-733. (in Korean)
9 Landahl, M. T., 1975, 'Wave Mechanics of Boundary Layer Turbulence Layer,' J.A.S.A., Vol. 57, pp.824-831   DOI
10 Keith, W. L. and Bennett, J. C., 1991, 'Low Frequency Measurements of the Wall Shear Stress and Wall Pressure in a Turbulent Boundary Layer,' AIAA, Vol. 29, No.4, pp.526-530   DOI
11 Farabee, T. M. and Casarella, M. J., 1991, 'Spectral Features of Wall Pressure Fluctuations Beneath Turbulent Boundary Layers,' physics of Fluids A, Vol. 3, pp.2410-2420   DOI
12 Gad-el-Hak, M., 2000, Flow Control, Cambridge University Press
13 Jacobson, S. A. and Reynolds, W. C., 1998, 'Active Control of Streamwise Vortices and Streaks in Boundary Layers,' J. Fluid Mech., Vol. 360, pp. 179-211   DOI   ScienceOn
14 Wehrmann, O. H., 1965, 'Reduction of Velocity Fluctuations in a Karman Vortex Street by Vibrating Cylinder,' physics of Fluids, Vol. 8, pp.760-761   DOI
15 Collis, S. S., Joslin, R. D., Seifert, A. and Theofilis, V., 2004, 'Issues in Active Flow Control: theory, control, simulation and experiment,' Progress in Aerospace Sciences, Vol. 40, pp.237-289   DOI   ScienceOn
16 Wiltse, J. M. and Glezer, A., 1993, 'Manipulation of Free Shear Flows Using Piezoelectric Actuators,' J. Fluid Mech., Vol. 249, pp.261-285   DOI   ScienceOn
17 Wehrmann, O. H., 1967, 'Self-Adjusting Feedback Loop for Mechanical Systems to Influence Flow in Transition. Part I,' Boeing Scientific Research Lab., Document D1-82-0632