Open Access
Study on lightning protection scheme of multi‐terminal MMC‐MVDC distribution system
Author(s) -
Gao Yuqun,
Han Yongxia,
Xiao Fanglei,
Chen Changfu,
Zhang Jinghan,
Zhang Jie,
Zhang Yaqi,
Li Licheng
Publication year - 2020
Publication title -
high voltage
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.732
H-Index - 20
ISSN - 2397-7264
DOI - 10.1049/hve.2019.0256
Subject(s) - overvoltage , lightning arrester , engineering , electrical engineering , lightning (connector) , ground , voltage , terminal (telecommunication) , power (physics) , telecommunications , physics , quantum mechanics
Based on a ±10 kV three‐terminal MMC‐MVDC (medium voltage DC distribution system based on modular multilevel converter) system, in this study, the authors mainly study on the influencing factors and protection schemes of the lightning intruding overvoltage (including direct lightning and back‐flashover lightning). Firstly, a lightning intruding overvoltage simulation model of the MMC‐MVDC distribution system using overhead lines is established based on the PSCAD/EMTDC program. The influence of steady‐state operating voltage and the number of converter stations on the simulation results are simulated and analysed. Meanwhile, the proper simulation modelling method of the lightning intruding overvoltage for multi‐terminal MMC‐MVDC system is proposed. Secondly, the lightning intruding overvoltage is simulated when the line is struck by the lightning stroke current that occurs once in 20 years and the different lightning protection schemes are proposed. Finally, based on the lightning impulse withstand voltage, lightning trip‐out rate and the cost of the protection schemes, the lightning protection schemes in different scenarios are proposed. The simulation results show that if the cost of the system is prioritised, the protection scheme of increasing the number of parallel stacks of the DL arresters can be selected, and if the power supply reliability of the system is prioritised, the protection scheme of installing the overhead ground wire as well as reducing grounding resistance can be selected.