固体推进剂电热化学燃烧特性的脉冲形成网络设计

M. Del Guercio, I. Stobie, G. Katulka, W. Oberle
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引用次数: 2

摘要

采用最大存储能量300 kJ脉冲形成网络(PFN),在1.2 ms脉冲长度1 kJ/g的电能范围内,研究了固体推进剂在等离子体增强作用下的燃烧。一个封闭的腔室容器用于燃烧这些固体推进剂,其中等离子体通过等离子体发生器注入。为了在更长的脉冲长度下表征等离子体增强对推进剂燃烧的影响,该PFN在2.4 ms脉冲长度下的最大存储能量输出为400 kJ。本文讨论了理论计算、PFN升级设计和制造的细节。还提供了关于推进剂点火允许延迟等离子体注入的等离子体发生器的设计和修改。讨论了等离子体延迟点火的细节。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A pulse forming network design for electrothermal-chemical combustion characterization of solid propellants
The combustion of solid propellants subjected to plasma augmentation, has been studied with a 300 kJ maximum stored energy pulse forming network (PFN) in the range of 1 kJ/g of electrical energy over a 1.2 ms pulse length. A closed chamber vessel is used for the combustion of these solid propellants in which the plasma is injected via a plasma generator. To characterize the effects of such plasma augmentation on propellant combustion over a longer pulse length, this PFN was upgraded to a maximum stored energy output of 400 kJ with a 2.4 ms pulse length. This report discusses the theoretical calculations, PFN upgrade design and fabrication details. Also provided are the design and modifications of the plasma generator that allows a delayed plasma injection with respect to the propellent ignition. Details of the plasma delay firings are also discussed.
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