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Abstract of article
Teplofizika vysokikh temperatur

 -  tom 50, № 3, Mai-Iyun' 2012, S. 346-353 Help

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UPRAVLENIE VOZDUShNYM POTOKOM VBLIZI KRUGOVOGO TsILINDRA S POMOShch'Yu VCh-AKTUATORA. VLIYaNIE PARAMETROV RAZRYaDA NA AERODINAMIChESKOE SOPROTIVLENIE TsILINDRA
P. N. Kazanskii, A. I. Klimov, I. A. Moralev
Ob"edinennyi institut vysokikh temperatur RAN, Moskva

Postupila v redaktsiyu 20.10.2011 g.

Izucheno vliyanie poverkhnostnogo emkostnogo VCh-razryada na obtekanie krugovogo tsilindra pri skorosti nabegayushchego potoka 20–100 m/s i chislakh Reinol'dsa Re < 2.4 × 105. Podvodimaya v razryad moshchnost' modulirovalas' s chastotoi 102[Picture]104 Gts, chto sootvetstvuet chislu Strukhalya St = 0.1–10. Pokazano, chto razryad okazyvaet sushchestvennoe vliyanie na raspredelenie davleniya v slede za tsilindrom. Nablyudaetsya umen'shenie srednikh razmerov sleda. Izmereny parametry razryada: temperatura gaza, temp nagreva gaza v razryadnoi zone, skorost' rasprostraneniya razryada.

Spisok literatury

  1. 1. Velkoff H., Ketchman J. Effect of an Electrostatic Field on Boundary Layer Transition // AIAA J. 1968. V. 16. P. 1381.
  2. 2. Velkoff H., Godfrey R. Low Velocity Heat Transfer to a Plate in the Presence of a Corona Discharge in Air // J. Heat Transfer. 1979. V. 101. P. 157.
  3. 3. Bushnell D. Turbulent Drag Reduction for External Flows // AIAA Paper 83-0227. 1983.
  4. 4. Malik M.R., Weinstein L., Hussaini M.Y. Ion Wind Drag Reduction // AIAA Paper 83-0231. 1983.
  5. 5. Soetomo F. The Influence of High Voltage Discharge on Flat Plate Drag at Low Reynolds Number Air Flow // MS Thesis Iowa State University. Iowa, 1992. P. 5.
  6. 6. Roth J.R., Sherman D.M., Wilkinson S.P. Boundary Layer Flow Control with a One Atmosphere Uniform Glow Discharge Surface Plasma // AIAA Paper 98-0328. 1998.
  7. 7. Roth J.R. Electrohydrodynamically Induced Airflow in a One Atmosphere Uniform Glow Discharge Surface Plasma // 25th IEEE Int. Conf. Plasma Sci. 1998. P. 272.
  8. 8. Mclaughlin T.E. Plasma-Based Actuatours for Cylinder Wake Vortex Control // AIAA 2004-2129.
  9. 9. Shunsuke Yamada, Koui Shibata, Hitoshi Ishikawa, Shinji Honami, Masahiro Motosuke. Flow Behavior behind a Circular Cylinder by DBD Plasma Actuators in Low Reynolds Number // AIAA 2010-549.
  10. 10. Timothy N. Jukes, Kwing-So Choi. Flow Control Around a Circular Cylinder Using Pulsed Dielectric Barrier Discharge Surface Plasma // Phys. Fluids. 2009. V. 21. 084103.
  11. 11. Thomas F.O., Kozlov A., Corke T.C. Plasma Actuators for Cylinder Flow Controland Noise Reduction // AIAA J. 2008. V. 46. № 8. P. 1921.
  12. 12. Laux C.O. Radiation and Nonequilibrium Collisional-Radiative Models // Von Karman Institute Lecture Series 2002-07. Physico-Chemical Modeling of High Enthalpy and Plasma Flows / Eds. Fletcher D., Charbonnier J.-M., Sarma G.S.R., Magin T. Rhode-Saint-Genise, Belgium, 2002. P. 7.
  13. 13. Little J., Nishihara M., Adamovich I., Samimy M. Separation Control from the Flap of a High-Lift Airfoil using DBD Plasma Actuators // AIAA 2009-145.
  14. 14. Williamson C.H.K. Vortex Dynamicsinthe Cylinder Wake // Annu. Rev. Fluid. Mech. 1996. V. 28. P. 477.


PII: S0040364412030040

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