Thin Solid Films, Vol.516, No.19, 6660-6667, 2008
Aerodynamic plasma actuators: A directional micro-jet device
In recent years electroacrodynamic actuators have been rather intensively studied in order to control airflow [H. Velkoff, R. Godfrey, J. of Heat Transfer 101 (1979) 157; S. El-Khabiry, G.M. Colver, Phys. Fluids 9 3 (1997) 587; A. Soldati, S. Banerjee, Phys. Fluids 10 (1998) 1742; R. Vilela Mendes, J.A. Dente, J. Fluids Eng. 120 (1998) 626; A. Schutze, et al., IEEE Trans. Plasma Sci. 26 6 (1998) 1685; G.M. Colver, S. El-Khabiry, IEEE Trans. Ind. Appl. 35 2 (1999) 387; JR. Roth, D.M. Sherman, S.P. Wilkinson, AIAA J. 38 7 (2000) 1172; L. Leger, E. Moreau, G. Artana, G. Touchard, J. Electrost. 50-51 (2001) 300 [1-7]; W. Shy, B. Jayaraman, A. Andersson, J. Appl. Phys. 92 11 (2002) 6434; G. Artana, J. D'Adamo, L. Leger, E. Moreau, G. Touchard, AIAA J. 40 9 (2002) 1773; JR. Roth, Phys. plasmas 10 5 (2003) 2117; K.T. Hyun, C.H. Chun, Exp. Fluids 35 (2003) 541; G. Artana, R. Sosa, E. Moreau, G. Touchard, Exp. in Fluids 35 (2003) 580; C.L. Enloe, T.E. McLaughlin, R.D. VanDyken, K.D. Kachner, E.J. Jumper, T.C. Corke, AIAA J. 42 3 (2004) 589; C.L. Enloe, T.E. McLaughlin, R.D. VanDyken, K.D. Kachner, E.J. Jumper, T.C. Corke, M. Post, O. Haddad, AIAA J. 42 3 (2004) 595; M. Samimy, I. Adamovich, B. Webb, J. Kastner, J. Hileman, S. Keshav, P. Palm, Exp. Fluids 37 (2004) 577; J.P. Boeuf, L.C. Pitchford, J. Appl. Phys. 97 (2005); E. Moreau, A. Labergue, G. Touchard, J. Adv. Oxydation 8 2 (2005) 241; M. Forte, L. Leger, J. Pons, E. Moreau, G. Touchard, J. Electrost. 63 (2005) 929; J. Pons, E. Moreau, G. Touchard, J. Phys., D, Appl. Phys. 38 (2005) 3635; E. Moreau, C. Louste, G. Touchard, J. Electrost. 66 (2008) 107 [9-19]; G.I. Font, AIAA Journal 44 7 (2006) 1572; Y. Sung, W. Kim, M.G. Mungal, M.A. Cappeli, Exp. Fluids 41 (2006) 479; E. Moreau, L. Leger, G. Touchard, J. Electrost. 64 (2006) 215; R. Sosa, G. Artana, J. Electrost. 64 (2006) 604 [22-25]]. Their principle is to produce a plasma in which ions are submitted to electric field. Then, the molecules of air are drifted by ions, generating an "electric wind". In the LEA (Laboratoire d'Etudes Aerodynamiques), three kinds of actuators have been mainly performed and studied: the DC actuator, the DBD actuator and the sliding discharge actuator. In the present paper we will first examine briefly the setup of each kind of actuators and how they produce electric wind. Then we will describe a new kind of device based on two DBD actuators and performed to generate a micro-jet in an adjustable direction. (C) 2007 Elsevier B.V. All rights reserved.