特高压输电项目中高压并联电容器内部熔断器的尺寸设计

IF 1.3 4区 物理与天体物理 Q3 PHYSICS, FLUIDS & PLASMAS
Zijian Wang;Liqiang Wei;Fei Yan;Yongli Wu;Zichen Wang;Yanfeng Ma
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引用次数: 0

摘要

内部熔断器在保护高压并联电容器方面发挥着重要作用。然而,目前对高压并联电容器内部熔断器的设计还缺乏研究。本文搭建了一个实验平台,研究直径对熔断器熔断特性的影响。实验得出了 0.3-0.7 mm 范围内不同直径熔断器的最大非熔断电流作用积分和最小熔断电流作用积分。然后,分析了电容器单元在端子间短路或元件击穿时的等效电路。研究了流经不同直径和长度保险丝的电流,并计算了电流作用积分。将它们与实验得出的最大非熔断电流作用积分和最小熔断电流作用积分进行比较,可以确定熔断器直径和长度的选择范围。为了验证熔断器设计方法的合理性,本文对特高压输电工程中使用的 668 kvar 高压并联电容器的内部熔断器进行了设计和实验验证。本文将为高压并联电容器内部熔丝尺寸设计提供参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design of the Internal Fuse Dimension for HV Shunt Capacitor in UHV Transmission Projects
The internal fuse plays an important role in the protection of high-voltage (HV) shunt capacitors. However, there is still a lack of research on the design of the internal fuse for HV shunt capacitors. In this article, an experimental platform is built to investigate the effect of the diameter on the fusing characteristics of the fuse. The maximum nonfusing current action integral and the minimum fusing current action integral of fuses with different diameters in the range of 0.3–0.7 mm are obtained. Then, the equivalent circuits of the capacitor unit are analyzed when there is a short between terminals or element breakdown. The current flowing through the fuses with different diameters and lengths is studied, and the current action integral is calculated. Comparing them with the maximum nonfusing current action integral and the minimum fusing current action integral obtained from the experiments, the selection range of fuse diameter and length can be determined. In order to verify the rationality of the fuse design method, the internal fuse of a 668 kvar HV shunt capacitor used in ultrahigh-voltage (UHV) transmission projects is designed and validated experimentally. This article will provide a reference for the internal fuse dimension design of HV shunt capacitors.
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来源期刊
IEEE Transactions on Plasma Science
IEEE Transactions on Plasma Science 物理-物理:流体与等离子体
CiteScore
3.00
自引率
20.00%
发文量
538
审稿时长
3.8 months
期刊介绍: The scope covers all aspects of the theory and application of plasma science. It includes the following areas: magnetohydrodynamics; thermionics and plasma diodes; basic plasma phenomena; gaseous electronics; microwave/plasma interaction; electron, ion, and plasma sources; space plasmas; intense electron and ion beams; laser-plasma interactions; plasma diagnostics; plasma chemistry and processing; solid-state plasmas; plasma heating; plasma for controlled fusion research; high energy density plasmas; industrial/commercial applications of plasma physics; plasma waves and instabilities; and high power microwave and submillimeter wave generation.
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