On the Results of an Experiment with a Megajoule Class Helical Flux Compression Generator Operating at Above Nominal Levels of Current and Voltage Stress

2018 16th International Conference on Megagauss Magnetic Field Generation and Related Topics (MEGAGAUSS) Pub Date : 2018-09-01 DOI:10.1109/MEGAGAUSS.2018.8722652

A. Young, A. D. White, J. Trueblood, A. Lodes, H. Loey, R. Richardson, A. Johnson, D. P. Milhous, A. Ferriera, R. Speer, E. Baluyot, A. Bockman, R. K. Hicks, K. Hood, J. Javedani, S. Leahy, T.T. Leever, G. Mease, D. Norton, A. Pearson, A. Ray, M. Tillman, D. Herrera, P. Dickson, J. Gunderson

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引用次数: 3

Abstract

An experiment conducted with a megajoule class helical flux compression generator (HFCG), operating into a primarily inductive load, is described. The motivation behind the experiment was to benchmark the performance of the generator at higher currents and voltages than were tested in prior experiments. The intention was to push operation into a regime where flux loss was likely to become nonlinear, thereby gaining some insight into performance limitations of the design. Another goal was the desire to benchmark the suite of computational tools used to predict the performance of the design, especially in regimes of nonlinear flux loss. In the experiment, the HFCG was seeded with 105 kA (1.05 Wb), and produced 8.6 MA (0.28 Wb) into the load. This result differed significantly from computational models of the experiment, which predicted greater than 10 MA into the load. While more than one source of flux loss was observed in the waveforms, the dominant source of loss appears to be associated with joule heating and magnetic diffusion, which were found to have the most impact during the latter stages of HFCG operation. Details of the experiment design, setup and execution will be given. Analysis of the captured data, along with comparison of these data with model predictions and past experimental data, will be shown.

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在高于额定电流和电压应力水平下工作的兆焦耳级螺旋磁通压缩发生器的实验结果

本文描述了一种以兆焦级螺旋磁通压缩发生器(HFCG)为主要电感负载进行的实验。实验背后的动机是测试发电机在比先前实验中测试的更高电流和电压下的性能基准。设计的目的是将操作推进到一个通量损失可能成为非线性的状态，从而获得对设计性能限制的一些见解。另一个目标是对用于预测设计性能的计算工具套件进行基准测试，特别是在非线性通量损失的情况下。实验中，HFCG以105 kA (1.05 Wb)播种，产生8.6 MA (0.28 Wb)。这一结果与实验计算模型显著不同，该模型预测负载大于10 MA。虽然在波形中观察到不止一种磁通损耗源，但损耗的主要来源似乎与焦耳加热和磁扩散有关，这在HFCG操作的后期阶段影响最大。详细的实验设计，设置和执行将给出。将显示对捕获数据的分析，以及将这些数据与模型预测和过去的实验数据进行比较。

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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2018 16th International Conference on Megagauss Magnetic Field Generation and Related Topics (MEGAGAUSS)

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