Simon Böddeker, Sven Gröger, N. Bibinov, P. Awakowicz
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引用次数: 0
摘要
滑行弧等离子体加速器(GAP)是一种很有前途的暖等离子体源,可用于气体转换应用,但缺乏对等离子体动力学的了解。本文利用光学发射光谱(OES)和数值模拟对氮气流(10 slm)下运行的 GAP 滑翔弧等离子体条件进行了表征。同时采用双波长 OES 方法和阿贝尔反演测量图像,空间分辨率为 19.6 μm。本研究采用的碰撞辐射模型包括电子的库仑碰撞。采用迭代法确定等离子体参数。所确定的电场值(最高达 49 Td)和电子密度(最高达 2.5∙10^15 cm-3)与在可比等离子体源中通过不同诊断方法获得的等离子体参数非常吻合。此外,利用确定的还原电场和电子密度计算出的电流也与测量值进行了比较。
Characterization of a filamentary discharge ignited in a gliding arc plasmatron operated in nitrogen flow
A gliding arc plasmatron (GAP) is a promising warm plasma source for the use in gas conversion applications but lacks an understanding of the plasma dynamics. In this paper, the gliding arc plasma conditions of a GAP operated with nitrogen flow (10 slm) are characterized using optical emission spectroscopy (OES) and numerical simulation. A simultaneously two-wavelength OES method and Abel inversion of the measured images with a spatial resolution of 19.6 μm are applied. The collisional radiative model used in this study includes Coulomb collisions of electrons. An iterative method of plasma parameter determination is applied. The determined values of the electric field up to 49 Td and electron density up to 2.5∙10^15 cm-3 fit well to the plasma parameters received with different diagnostics methods in comparable plasma sources. Additionally, the electric current, which is calculated using the determined reduced electric field and electron density, is compared with the measured one.
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