Wall Boundary Layer Effects on Ionizing Shock Structure in Argon

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概要

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• The behavior of ionization relaxation behind a shock wave in argon under the influence of laminar wall boundary layer is considered. It is found that the temperature, density, and pressure increase in values with distance from the shock front due to the boundary layer growth through most of the relaxation region where the degree of ionization is very small, and subsequently vary to their respective equilibrium values due to ionization reaction; the ionization relaxation time is significantly shortened by introducing the boundary layer effects. Comparison between the calculated and experimental results of ionization time in argon shows a reasonable agreement.

• 社団法人日本物理学会の論文
• 1973-10-05

著者

• Enomoto Yuji

  Department Of Chemical Engineering Nagoya University

関連論文

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• Ionization Relaxation Times in Shock-Heated Argron and Xenon
• Measurement of the Electrical Conductivity of Partially Ionized Xenon Produced by Shock Waves
• Effective Resistance between Cold Electrodes in Shocked Xenon Plasma
• Wall Boundary Layer Effects on Ionizing Shock Structure in Argon

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