Quasi-One-Dimensinal Nonequilibrium Flow of Partially Ionized Argon with Different Species Temperatures

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概要

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• Three-fluid nonequilibrium equations governing the flows of a partially ionized argon plasma are formulated. The equations are applied to the ionization-recombination nonequilibrium flow behind a strong normal shock wave, and to that in a convergent-divergent nozzle. The main consideration is made on the equipartition of the atom and ion thermal energies. For the flow behind a shock wave $T_{a}{=}T_{i}$ is confirmed for a wide range of the upstream pressure. For the flow in a nozzle, $T_{a}{=}T_{i}$ is usually confirmed. However, an example is shown in which $T_{i}$ is in slight excess of $T_{a}$ in the far downstream region from the throat.

• 社団法人日本物理学会の論文
• 1975-05-15

著者

• Matsuzaki Ri'ichi

  National Aerospace Laboratory

• Matsuzaki Ri′ichi

  National Aerospace Laboratory

関連論文

• Precursor Waves in an Electric Shock Tube
• Quasi-One-Dimensinal Nonequilibrium Flow of Partially Ionized Argon with Different Species Temperatures
• Effect of Coupling between Free Electron and Molecular Rotation on Electron Temperature in Ionized Nonequilibrium Flow of Air

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