DC fault current clearance coordinated control strategy for DC grid with hybrid MMC

IF 5 2区工程技术 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC International Journal of Electrical Power & Energy Systems Pub Date : 2024-08-17 DOI:10.1016/j.ijepes.2024.110189

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引用次数: 0

Abstract

For DC grid based on the hybrid modular multilevel converter (MMC), the traditional DC fault current clearance scheme takes a long time and greatly affects the active power transmission. A novel DC fault current clearance coordinated control strategy is proposed, which can quickly interrupt the fault current and reduce the impact of DC fault on the DC grid and AC system. For fault-line connected MMC (FLMMC), a negative DC voltage control is employed, which can improve the current attenuation speed and ensure reliable fault isolation. For non-fault-line connected MMC (NFLMMC), the active current-limiting control (ACLC) based on the virtual reactor is adopted, which can reduce the current flow to the fault location and further shorten fault isolation time. To reduce the impact on the AC system during the DC fault, a short-time active power support control is designed. Finally, a four-terminal DC grid simulation model is built based on the RT-LAB OP5600 real-time digital simulation platform. The simulation results show that the proposed coordinated control strategy for the DC grid can quickly clear DC fault current, shorten DC fault isolation time, and strengthen active power support capability.

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采用混合 MMC 的直流电网直流故障电流清除协调控制策略

对于基于混合模块化多电平变换器（MMC）的直流电网，传统的直流故障电流清除方案耗时长，对有功功率传输影响大。本文提出了一种新颖的直流故障电流清除协调控制策略，可快速中断故障电流，减少直流故障对直流电网和交流系统的影响。对于故障线路连接的 MMC（FLMMC），采用负直流电压控制，可提高电流衰减速度，确保可靠的故障隔离。对于非故障线连接的 MMC（NFLMMC），则采用基于虚拟电抗器的有源限流控制（ACLC），可减少流向故障位置的电流，进一步缩短故障隔离时间。为减少直流故障时对交流系统的影响，设计了短时有功功率支持控制。最后，基于 RT-LAB OP5600 实时数字仿真平台建立了四端直流电网仿真模型。仿真结果表明，所提出的直流电网协调控制策略可以快速清除直流故障电流，缩短直流故障隔离时间，增强有功功率支持能力。

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来源期刊

International Journal of Electrical Power & Energy Systems 工程技术-工程：电子与电气

CiteScore

12.10

自引率

17.30%

发文量

1022

审稿时长

51 days

期刊介绍： The journal covers theoretical developments in electrical power and energy systems and their applications. The coverage embraces: generation and network planning; reliability; long and short term operation; expert systems; neural networks; object oriented systems; system control centres; database and information systems; stock and parameter estimation; system security and adequacy; network theory, modelling and computation; small and large system dynamics; dynamic model identification; on-line control including load and switching control; protection; distribution systems; energy economics; impact of non-conventional systems; and man-machine interfaces. As well as original research papers, the journal publishes short contributions, book reviews and conference reports. All papers are peer-reviewed by at least two referees.