A residual current compensation control method based on a PWM-controlled converter

被引：0

作者：

Wang P. ^{[1
]}

Feng G. ^{[1
]}

Wang H. ^{[2
]}

Chen M. ^{[2
]}

Zhang J. ^{[2
]}

Shi G. ^{[2
]}

Jia Y. ^{[2
]}

机构：

[1] Electric Power Research Institute of State Grid Hehan Electric Power Company, Zhengzhou

[2] Shanghai Jiao Tong University Wind Power Research Center, Shanghai

来源：

Dianli Xitong Baohu yu Kongzhi/Power System Protection and Control | 2021年 / 49卷 / 18期

关键词：

Active damping current; Full compensation arc suppression coil; PWM-controlled converter; Residual-current compensation; Single-phase ground fault;

D O I：

10.19783/j.cnki.pspc.201357

中图分类号：

学科分类号：

摘要：

There is a problem of poor real-time compensation ability of a grounding residual current of traditional full compensation arc suppression device in a distribution network. There is also a long-time resonance state after fault recovery. Thus a full compensation control method of grounding residual current based on a PWM-controllable converter is proposed. The principle of full compensation fault arc suppression is discussed in detail, and the capacitance to ground is measured by the frequency sweep method. The relationship between zero sequence voltage and residual current component is theoretically deduced, and a real-time control method of residual current full compensation is proposed. The active damping current injection method is used to detect the ground fault recovery in real time, and the calculation basis of active damping current is analyzed theoretically. Finally, a digital simulation study on the compensating effect of the fault current based on a 10 kV single-phase grounding distribution network is carried out. The results show that the grounding fault current can be compensated for quickly and effectively, and the full compensation device can quickly exit the operation after the fault recovery. This shows the correctness and feasibility of the proposed control strategy. © 2021 Power System Protection and Control Press.

引用

页码：110 / 118

页数：8

共 27 条

[11] QU Yilong, DONG Yimai, TAN Weipu, Et al., Research on new type arc-suppression coil based on single-phase active power filter technology, Relay, 35, 3, pp. 29-33, (2007)
[12] TANG Yi, CHEN Kui, CHEN Qing, Et al., Research on the full current compensation of one-phase-to-ground fault, Journal of China University of Mining & Technology, 32, 5, pp. 558-562, (2003)
[13] JIA Chenxi, YANG Longyue, DU Guifu, Review of key technologies on full current compensation arc suppression coil, Power System Protection and Control, 43, 9, pp. 145-154, (2015)
[14] ZHANG Jian, HE Leisisi, CHEN Rui, Et al., Active arc suppression method for single-phase grounding fault of power distribution network based on self-optimized control, Guangdong Electric Power, 30, 2, pp. 129-136, (2017)
[15] LI Xiaobo, JIANG Fengjing, LI Kang, Et al., Flexible control method of neutral point voltage using improved active compensation technology, Automation of Electric Power Systems, 40, 24, pp. 111-117, (2016)
[16] ZENG Xiangjun, WANG Yuanyuan, LI Jian, Et al., Novel principle of faults arc extinguishing & feeder protection based on flexible grounding control for distribution networks, Proceedings of the CSEE, 32, 16, pp. 137-143, (2012)
[17] GUO Moufa, YOU Jianzhang, LIN Xianhui, Et al., Flexible arc-suppression optimization method for distribution network adaptable to variation of line parameters and load, Automation of Electric Power Systems, 41, 8, pp. 138-145, (2017)
[18] ZHOU Xingda, LU Shuai, CHEN Yangming, Et al., Single-phase-to-ground fault arc-extinguishing method for distribution network based on SVG two-phase current injection, Automation of Electric Power Systems, 43, 10, pp. 142-149, (2019)
[19] CHEN Rui, ZHOU Feng, WENG Hongjie, Et al., Active arc-suppression method based on double closed-loop control under single-phase grounding fault, Automation of Electric Power Systems, 41, 5, pp. 128-133, (2017)
[20] ZHANG Yi, XUE Yongduan, SONG Huamao, Et al., Performance analysis and improvement of active voltage arc-suppression algorithm about low resistance grounding fault, Power System Technology, 41, 1, pp. 314-321, (2017)

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