A new look at the energy efficiency of a series magnetic pulse compressor with resistive losses

N. Georgescu
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Abstract

In high repetition rate magnetic pulse compressors, even small increases of energy efficiency are very important. In this paper, the energy efficiency in a magnetic pulse compression loop is defined as the ratio between the accumulated energy in the final capacitor (C2) and the initial energy in the first capacitor (C1). The maximization of the energy efficiency does not correspond to the total discharge of the first capacitor, such as others authors have stated. An expression for the energy efficiency (/spl epsi/), as a function of k=C1/C2, is demonstrated. The graphical representations show that the /spl epsi/ maximization is obtained for k>1, such that a progressively decrease of the capacitors in the compression chain is needed. The energy efficiency is in this case with up to 20% greater than that of the other theory. Another very important advantage of the authors' theory is demonstrated: the voltage level, remains practically unchanged all along the series magnetic pulse compression circuit.
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具有电阻损耗的串联磁脉冲压缩机能效的新研究
在高重复率的磁脉冲压缩机中,即使是很小的能量效率的提高也是非常重要的。本文将磁脉冲压缩回路的能量效率定义为最终电容器(C2)累积能量与第一个电容器(C1)初始能量之比。如其他作者所述,能量效率的最大化并不对应于第一个电容器的总放电。给出了能量效率(/spl epsi/)作为k=C1/C2的函数的表达式。图形表示表明,当k>1时获得/spl epsi/最大值,因此需要逐步减少压缩链中的电容器。在这种情况下,能源效率比其他理论高出20%。作者理论的另一个非常重要的优点是:在串联磁脉冲压缩电路中,电压水平几乎保持不变。
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