Analysis of Distributed Energy Railguns to Suppress Secondary Arc Formation

2008 14th Symposium on Electromagnetic Launch Technology Pub Date : 2008-06-10 DOI:10.1109/ELT.2008.95

R. Karhi, J. Mankowski, M. Kristiansen

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引用次数: 9

Abstract

An investigation into arc splitting at distributed energy feed locations is presented. Distributed energy scheme experiments conducted at Texas Tech University reveal secondary arc formation by arc splitting at distributed current feeds. At these locations, dynamic magnetic pressure regions are believed to perturb the plasma and lead to its division into two separate current carrying bodies. Continuing research into this hypothesis and viable methods of prevention are discussed. A two stage distributed energy railgun is utilized for this analysis. Diagnostics including armature B-dots and a photodiode array facilitate an understanding of the plasma dynamics in the complex multi-stage railgun environment. The length of the free- running plasma arc allegedly is believed to be a contributing parameter into the arc splitting phenomenon. These luminosity data collected from the photodiodes provides an arc length measurement of the light emitting particles within the plasma body. This length is observed to expand and contract in accordance with the corresponding magnetic pressure present within the railgun bore.

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分布式能量轨道炮抑制二次电弧形成的分析

研究了分布式馈能位置的电弧分裂问题。在德克萨斯理工大学进行的分布式能量方案实验揭示了在分布式电流馈电中通过电弧分裂形成二次电弧。在这些位置，动态磁压区被认为扰乱了等离子体，导致它分裂成两个独立的载流体。讨论了对这一假设的持续研究和可行的预防方法。采用两级分布式能量轨道炮进行分析。包括电枢b点和光电二极管阵列在内的诊断有助于理解复杂多级轨道炮环境中的等离子体动力学。据称，自由运行的等离子体电弧的长度被认为是电弧分裂现象的一个重要参数。这些从光电二极管收集的光度数据提供了等离子体内发光粒子的弧长测量。观察到该长度根据轨道炮内存在的相应磁压力而膨胀和收缩。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2008 14th Symposium on Electromagnetic Launch Technology

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