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The Use of Spatially Multi-Component Plasma Structures and Combined Energy Deposition for High-Speed Flow Control: A Selective Review

Author

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  • Olga A. Azarova

    (Federal Research Center “Computer Science and Control” of the Russian Academy of Sciences, Vavilova Str. 44, 119333 Moscow, Russia)

  • Oleg V. Kravchenko

    (Federal Research Center “Computer Science and Control” of the Russian Academy of Sciences, Vavilova Str. 44, 119333 Moscow, Russia)

Abstract

This review examines studies aimed at the organization of energy (non-mechanical) control of high-speed flow/flight using spatially multi-component plasma structures and combined energy deposition. The review covers selected works on the experimental acquisition and numerical modeling of multi-component plasma structures and the use of sets of actuators based on plasma of such a spatial type for the purposes of control of shock wave/bow shock wave–energy source interaction, as well as control of shock wave–boundary layer interaction. A series of works on repetitive multiple laser pulse plasma structures is also analyzed from the point of view of examining shock wave/bow shock wave–boundary layer interaction. Self-sustained theoretical models for laser dual-pulse, multi-mode laser pulses, and self-sustained glow discharge are also considered. Separate sections are devoted to high-speed flow control using combined physical phenomena and numerical prediction of flow control possibilities using thermal longitudinally layered plasma structures. The wide possibilities for organization and applying spatially multi-component structured plasma for the purposes of high-speed flow control are demonstrated.

Suggested Citation

  • Olga A. Azarova & Oleg V. Kravchenko, 2024. "The Use of Spatially Multi-Component Plasma Structures and Combined Energy Deposition for High-Speed Flow Control: A Selective Review," Energies, MDPI, vol. 17(7), pages 1-39, March.
    • Handle: RePEc:gam:jeners:v:17:y:2024:i:7:p:1632-:d:1366146
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    References listed on IDEAS

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    1. Philip Andrews & Philip Lax & Sergey Leonov, 2022. "Triggering Shock Wave Positions by Patterned Energy Deposition," Energies, MDPI, vol. 15(19), pages 1-15, September.
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