电磁屏蔽效应对再入高焓流的影响

International Conference on Recent Advances in Space Technologies, 2003. RAST '03. Proceedings of Pub Date : 1900-01-01 DOI:10.1109/RAST.2003.1303952

T. Abe, Y. Takizawa, S. Sato, D. Konigorski

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引用次数: 0

摘要

为了确认与再入飞行相关的高度加热气体的可控制性的可能性，或者减少再入飞行器的热负荷，我们实验研究了电磁屏蔽效应对弱电离氩等离子体超音速流的影响，在该流周围产生磁场。为了对其流动进行分析，对自辐射流进行了流动显示和光谱测量。在光谱测量的基础上，用谱线强度法确定了电子激发温度。根据电子激发温度分布，确定了人体前方可能存在的激波前沿。研究发现，与理论建议的一样，可能的冲击隔离距离受到施加磁场的影响，并且比没有磁场的距离大。

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Electro-magnetic shield effect on reentry-related high-enthalpy flow

To confirm the possibility of the controllability of the highly heated gas associated with a reentry flight, or the reduction of the heat load to a reentry vehicle, we experimentally examine the electro-magnetic shield effect on a weakly ionized argon plasma supersonic flow around a body, around which the magnetic field is generated. To analyze the flow, the flow visualization and the spectroscopic measurement of the self-radiating flow were carried out. Based on the spectroscopic measurements, the electron excitation temperature was determined by means of the line intensity method. The possible shock front in front of the body was identified from the electron excitation temperature distribution. It was found that, as theoretically suggested, the possible shock stand-off distance is influenced by the application of the magnetic field and becomes larger than the one without the magnetic field.

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International Conference on Recent Advances in Space Technologies, 2003. RAST '03. Proceedings of

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