Investigation of a nonstationary flow field generated by a dielectric barrier discharge

Polivanov, P. A.; Vishnyakov, O. I.; Sidorenko, A. A.; Маслов, А. А.

doi:10.1134/s1063784212040238

Cited by 10 publications

References 10 publications

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On the possibility of laminar flow control on a swept wing by means of plasma actuators

Chernyshev

Kuryachii

Manuĭlovich

et al. 2015

Progress in Flight Physics – Volume 7

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Theoretical assessment of the possibility of laminar §ow control (LFC) on a swept wing owing to volumetric force and heat impact of plasma actuators is presented. The proposed approach includes numerical modeling of dielectric barrier discharge (DBD) actuators, calculation of inviscid §ow over an in¦nite span swept wing, calculation of compressible boundary layer spatially modulated in spanwise direction, and numerical solution of linear stability problem for stationary modes of cross- §ow-type disturbances. Calculations have been performed for one set of geometrical and physical parameters describing plasma actuators to estimate qualitative features of volumetric force and heat input distributions. Inviscid §ow and boundary layer calculations were executed at free stream parameters corresponding to typical cruise §ight conditions. Estimation of volumetric force impact necessary for noticeable in §uence on cross- §ow-type instability is obtained.

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On the possibility of laminar flow control on a swept wing by means of plasma actuators

Chernyshev

Kuryachii

Manuĭlovich

et al. 2015

Progress in Flight Physics – Volume 7

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Evolution of artificial disturbances in separation area of laminar boundary layer for M = 1.43

Vishnyakov¹,

Polivanov²

2021

AIP Conference Proceedings

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Evolution of artificial disturbances in a shear layer at M=1.43

Vishnyakov

Polivanov

Sidorenko

2021

J. Phys.: Conf. Ser.

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The evolution of artificial disturbances in a laminar boundary layer on a flat plate model in the presence of an incident shock wave is considered. The flow is supersonic with the freestream Mach number M = 1.43. The study is carried out by hot-wire anemometry. A dielectric barrier discharge is used to generate disturbances. Data on the distribution in space of the average and non-stationary components of the mass flow are obtained. Disturbances created by the discharge and their evolution along the separation zone are recorded.

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Investigation of a nonstationary flow field generated by a dielectric barrier discharge

Cited by 10 publications

References 10 publications

On the possibility of laminar flow control on a swept wing by means of plasma actuators

On the possibility of laminar flow control on a swept wing by means of plasma actuators

Evolution of artificial disturbances in separation area of laminar boundary layer for M = 1.43

Evolution of artificial disturbances in a shear layer at M=1.43

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