Streamer propagation in air

电场 电离 电子 光离子化 阳极 空间电荷 原子物理学 离子 电压 阴极 流光放电 航程(航空) 物理 领域(数学) 化学 计算物理学 电极 材料科学 量子力学 物理化学 复合材料 数学 纯数学
作者
R. Morrow,J. J. Lowke
出处
期刊:Journal of Physics D [Institute of Physics]
卷期号:30 (4): 614-627 被引量:471
标识
DOI:10.1088/0022-3727/30/4/017
摘要

A theory is presented for the development of the first streamer when a positive voltage is abruptly applied to a point in air at atmospheric pressure. The continuity equations for electrons, positive ions and negative ions, including the effects of ionization, attachment, recombination, electron diffusion, and photoionization, are solved simultaneously with Poisson's equation. With an applied voltage of 20 kV across a 50 mm gap, the streamer does not reach the cathode. An intense electric field front propagates away from the point into the gap to a distance of 35 mm in 200 ns. During the next the streamer only moves a further 2 mm into the gap, and the electric field at the head of the streamer collapses. Finally, only positive space charge remains which moves away from the point, allowing the field near the point to recover after ; free electrons can thus give rise to a secondary discharge near the anode. The electric field distribution is shown to be quite different from that found previously for in that the electric field in the column of the streamer is generally only a fraction of the critical field for which ionization equals attachment. Streamers for a given applied voltage have a far greater range in air than in . The results presented for air also apply to flue gas mixtures, since the important material properties of both gases are very similar.

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