Fault Location Method of Flexible DC Distribution Network Based on Active Control of Fault Current

被引：0

作者：

Mei J. ^{[1
]}

Zhang B. ^{[1
]}

Zhu P. ^{[1
]}

Ge R. ^{[1
]}

Yan L. ^{[1
]}

Chen X. ^{[1
]}

机构：

[1] School of Electrical Engineering, Southeast University, Nanjing

来源：

Dianli Xitong Zidonghua/Automation of Electric Power Systems | 2021年 / 45卷 / 24期

基金：

中国国家自然科学基金;

关键词：

Fault location; Flexible DC distribution network; Inhibition of fault current; Modular multilevel converter (MMC);

D O I：

10.7500/AEPS20210330005

中图分类号：

学科分类号：

摘要：

In order to improve the performance of the existing fault location methods of flexible DC distribution networks, ensure the power supply reliability of DC distribution networks and quickly restore power supply after fault, a fault location method based on active fault current control is proposed. Using the high controllability of hybrid modular multilevel converters (MMCs), the fault current is divided into stageⅠand stageⅡ. In stageⅠ, the rapid suppression of fault current is realized and conditions are provided for smooth transition to stage Ⅱ. In stage Ⅱ, the precise fault location is realized by injecting high-frequency reverse current with the specific frequency. The design method of fault reference current is introduced. Taking the asymmetric "hand-in-hand" double-terminal DC distribution network as a typical scenario, the fault location principle is analyzed. Finally, a simulation model of double-terminal DC distribution network is built in PSCAD/EMTDC to verify the feasibility of the proposed fault location method. © 2021 Automation of Electric Power Systems Press.

引用

页码：133 / 141

页数：8

共 30 条

[1] HU Ziheng, MA Junchao, ZENG Jiasi, Et al., Research on application of flexible DC power distribution system in Shenzhen power grid, Southern Power System Technology, 8, 6, pp. 44-47, (2014)
[2] ZHENG Huan, JIANG Daozhuo, DU Yi, Economic comparison of AC and DC distribution system, Power System Technology, 37, 12, pp. 3368-3374, (2013)
[3] WANG Shouxiang, LIU Qi, XUE Shimin, Et al., Key technologies and prospect for coordinated control and protection in DC distribution system, Automation of Electric Power Systems, 43, 23, pp. 23-30, (2019)
[4] ZHAO Jianpeng, ZHAO Chengyong, Yu LYU, Et al., Time-sequence coordination method of high voltage DC circuit breaker, Automation of Electric Power Systems, 43, 11, pp. 121-127, (2019)
[5] ZHAO Chengyong, LI Shuai, ZHANG Jiyuan, Et al., An augmented modular multilevel converter for clearing fault in DC grid, Automation of Electric Power Systems, 44, 5, pp. 60-67, (2020)
[6] TANG Xiaojun, ZHANG Zhengwei, HAN Minxiao, Et al., VSC-HVDC configuration method suitable for multi-DC feeding receiving power grid, Power System Protection and Control, 47, 10, pp. 57-64, (2019)
[7] LIU Youwei, Active protection and control technique based on smart high voltage equipment, Power System Technology, 36, 12, pp. 71-75, (2012)
[8] XIONG Xiaofu, Conception and architecture of pro-active protection and control for power equipments, Automation of Electric Power Systems, 42, 2, pp. 1-10, (2018)
[9] LI Dongmei, HU Yangyu, WANG Lili, Et al., Double-end distance measurement fault location method for DC distribution network based on improved injection method, Smart Power, 47, 12, pp. 110-116, (2019)
[10] HE Jinghan, ZHANG Ming, LUO Guomin, Et al., A fault location method for flexible DC distribution network based on fault transient process, Power System Technology, 41, 3, pp. 985-992, (2017)

← 1 2 3 →