The parameters and energy amplification of compression generator with iron-free rotor defined by the magnetic field simulation

Digest of Technical Papers. 12th IEEE International Pulsed Power Conference. (Cat. No.99CH36358) Pub Date : 1999-06-27 DOI:10.1109/PPC.1999.825504

V. Chemerys, Y. Vaskovsky

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引用次数: 1

Abstract

The paper contains the further consideration of the idea to use the rotating pulsed generator with iron-free rotor which was discussed briefly in the poster presented on the IEEE Pulsed Power Conference 1997 and in the poster of 8th EML 1997, both not published. The estimations made previously with application of both mathematic simulation and measurements on the small laboratory model have yielded low coefficient of total inductance variation (on the level 10-15 instead of 300-400 and more for completely iron machines). Now the modeling of a bigger sample of generator is done with the following dimensions: rotor diameter 0.25 m, active length 0.425 m and rotation frequency 6000 rpm. The results have enabled the possibility to reach the value of this coefficient near 120 at the increased density of initial magnetic energy for excitation in the space occupied by the rotor, equal to 1.6 MJ/m/sup 3/, and increased volume of the excitation field. The output energy in the ohmic load of the generator considered is equal to 2.14 MJ, what is near 34% of peak total magnetic energy.

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通过磁场仿真确定了无铁转子压缩发电机的参数和能量放大

本文进一步考虑了使用无铁转子旋转脉冲发电机的想法，这一想法在1997年IEEE脉冲功率会议和1997年第八届EML的海报中进行了简要讨论，但均未发表。以前通过应用数学模拟和在小型实验室模型上的测量所做的估计已经产生了低的总电感变化系数(在10-15级，而不是300-400级，对于全铁机器)。现在对一个较大的发电机样本进行建模，尺寸为:转子直径0.25 m，主动长度0.425 m，旋转频率6000 rpm。结果表明，在增加转子所占空间的初始激励磁能密度(1.6 MJ/m/sup 3/)和增加激励场体积的情况下，该系数有可能达到接近120的值。所考虑的发电机欧姆负载的输出能量等于2.14 MJ，接近峰值总磁能的34%。

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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Digest of Technical Papers. 12th IEEE International Pulsed Power Conference. (Cat. No.99CH36358)

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