Plasma evolution mechanism and distribution characteristics of supersonic vehicles
During the flight of hypersonic vehicle, air will be decomposed and ionized due to the “friction” under ultra-high speed, thus forming a plasma layer. Because the plasma has the ability to absorb and reflect electromagnetic waves, the “black barrier” phenomenon is formed. In addition, when the hyper...
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Veröffentlicht in: | Physics of plasmas 2024-05, Vol.31 (5) |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | During the flight of hypersonic vehicle, air will be decomposed and ionized due to the “friction” under ultra-high speed, thus forming a plasma layer. Because the plasma has the ability to absorb and reflect electromagnetic waves, the “black barrier” phenomenon is formed. In addition, when the hypersonic vehicle passes through the atmosphere, the surface temperature rises sharply due to aerodynamic heating, and the surface material undergoes a series of complex changes to form ablation. In this paper, the finite volume method and the laminar finite rate model are used to study the flow field velocity, pressure distribution, flow field temperature, and spatial distribution of each component of the aircraft at different Mach numbers, angles of attack, and heights. In the flow field of supersonic aircraft, N and O are mainly concentrated in the tail of the aircraft, NO is mainly concentrated in the head of the aircraft, and N2 and O2 are full of the whole space. Because of the accumulation of NO+ and O2+ in the tail of the aircraft, the charge accumulation is formed, which will further interfere with the electromagnetic wave signal. The mass fraction of N and O increases with the increase in Mach numbers, while the mass fraction of O2 decreases with the increase in Mach numbers. Different angles of attack will affect the asymmetry of the shock wave of the aircraft. In this paper, the evolution mechanism and distribution characteristics of aircraft plasma are revealed, which lay a theoretical foundation for solving the problem of black barrier and ablation. |
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ISSN: | 1070-664X 1089-7674 |
DOI: | 10.1063/5.0202082 |