脉冲电流发生器调制直流电弧放电的能量调节

IF 4.4 2区 工程技术 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
High Voltage Pub Date : 2024-08-26 DOI:10.1049/hve2.12448
Ji Li, Jingfeng Tang, Yuqing Lou, Haoran Zhang, Lu Wang, Tianyuan Ji, Daren Yu, Ximing Zhu
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引用次数: 0

摘要

本文结合脉冲和射频的优点,提出了一种脉冲电流发生器调制直流电弧的方法,以解决直流电弧电子能量低的问题。通过实验分析电弧的电气、光谱和光学特性,讨论了脉冲电流发生器(ICG)对提高电子能量的影响。结果表明,ICG 消耗更多的能量来增强电弧放电的强度,因此电子能量在微秒尺度上得到了提高。此外,还发现电弧放电的电子能量可以通过改变电感、电容和放电管来调节:增加电感或电容可以先增加电子能量,然后再减少电子能量。在调节这三个可调元件时,调节电感是最有效的方法,其次是调节电容,而调节重复频率的效果最小。讨论了原因,认为结果与漏感和分布电容有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Energy regulation of impulse current generator modulated DC arc discharge

Energy regulation of impulse current generator modulated DC arc discharge

This paper proposes a method of impulse current generator modulated DC arc by combining the advantages of pulse and the RF to solve the low electron energy problem of direct current arc. Through experimental analyzing the electrical, spectral, and optical characteristics of the arc, the effect of impulse current generator (ICG) on improving electron energy is discussed. The results show that the ICG consumes more energy to enhance the strength of arc discharge, and therefore electron energy is increased in a microsecond scale. In addition, it is found that the electron energy of the arc discharge can be adjusted by varying inductance, capacitance, and discharge tube: increasing the inductance or capacitance can increase the electron energy firstly and then decrease it. In adjusting the three adjustable components, adjusting the inductor is the most effective method, followed by adjusting the capacitor, and adjusting the repetition frequency has the least effect. The reason is discussed, and it is believed that the results are related to leakage inductance and distributed capacitance.

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来源期刊
High Voltage
High Voltage Energy-Energy Engineering and Power Technology
CiteScore
9.60
自引率
27.30%
发文量
97
审稿时长
21 weeks
期刊介绍: High Voltage aims to attract original research papers and review articles. The scope covers high-voltage power engineering and high voltage applications, including experimental, computational (including simulation and modelling) and theoretical studies, which include: Electrical Insulation ● Outdoor, indoor, solid, liquid and gas insulation ● Transient voltages and overvoltage protection ● Nano-dielectrics and new insulation materials ● Condition monitoring and maintenance Discharge and plasmas, pulsed power ● Electrical discharge, plasma generation and applications ● Interactions of plasma with surfaces ● Pulsed power science and technology High-field effects ● Computation, measurements of Intensive Electromagnetic Field ● Electromagnetic compatibility ● Biomedical effects ● Environmental effects and protection High Voltage Engineering ● Design problems, testing and measuring techniques ● Equipment development and asset management ● Smart Grid, live line working ● AC/DC power electronics ● UHV power transmission Special Issues. Call for papers: Interface Charging Phenomena for Dielectric Materials - https://digital-library.theiet.org/files/HVE_CFP_ICP.pdf Emerging Materials For High Voltage Applications - https://digital-library.theiet.org/files/HVE_CFP_EMHVA.pdf
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