Review of passive loop systems for normalization of high-voltage cable line magnetic field

System Research in Energy Pub Date : 2022-12-27 DOI:10.15407/srenergy2022.02.073

V. Grinchenko, O. Tkachenko, Tetyana Bilan

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Abstract

The paper is devoted to the review of known passive loop systems that can be used to normalize the high-voltage cable line magnetic field. The purpose is to identify the most promising systems. We review the most cited scientific papers and patents about the reduction of the power line magnetic field. We identify the top research groups engaged in the design of passive loop systems. The two groups are from Italy, the one each is from Spain and Ukraine. The passive loop systems developed by each group have their own features. We classify the systems according to the following characteristics: the number of passive loops in the shielding system, the shape of passive loops used in the shielding system, and the way to increase the shielding efficiency of cable line magnetic field. According to the number of passive loops, the systems can be divided into three types: single-element, double-element and multi-element. According to the shape of passive loops, two types of shielding systems can be distinguished, namely, the systems using rectangular passive loops and the systems using passive loops made of three cables connected in parallel. According to the method of the shielding efficiency increasing, the system can be divided into four types: the first use ferromagnetic cores covering power and shield cables, the second use additional capacitors connected to shield cables, the third use a unique arrangement of loops between the cable line and the shielding area, the fourth use an increase in the cross-section of shield cables, respectively, an increase in the quantity of metal. The review shows the most promising passive loop systems for normalizing the high-voltage cable line magnetic field are single-element systems with additional cores, namely «High Magnetic Coupling Passive Loop» and «Single-loop shield with ferromagnetic cores and asymmetric magnetic coupling». Keywords: magnetic field, shielding, cable line, reference level, power frequency

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高压电缆线路磁场归一化无源回路系统综述

本文对目前已知的用于高压电缆线路磁场归一化的无源环路系统进行了综述。目的是确定最有前途的系统。我们回顾了被引次数最多的有关降低电力线磁场的科学论文和专利。我们确定了从事无源环路系统设计的顶级研究小组。两组分别来自意大利，一组分别来自西班牙和乌克兰。各研究组开发的无源回路系统各有特点。我们根据屏蔽系统中无源回路的数量、屏蔽系统中使用的无源回路的形状、提高电缆线路磁场屏蔽效率的方式等特点对系统进行分类。根据无源回路的数量，系统可分为单单元、双单元和多单元三种类型。根据无源回路的形状，可以将屏蔽系统分为两种，即采用矩形无源回路的屏蔽系统和采用三根电缆并联的无源回路的屏蔽系统。根据提高屏蔽效率的方法，该系统可分为四种类型:第一种使用铁磁铁芯覆盖电源和屏蔽电缆，第二种使用附加电容器连接屏蔽电缆，第三种在电缆线路和屏蔽区域之间采用独特的环路排列方式，第四种使用增加屏蔽电缆的横截面，分别增加金属的数量。综述表明，用于高压电缆线路磁场归一化的最有前途的无源环路系统是带有附加磁芯的单元件系统，即“高磁耦合无源环路”和“带有铁磁磁芯和不对称磁耦合的单回路屏蔽”。关键词:磁场，屏蔽，电缆线路，参考电平，工频

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System Research in Energy

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