Start-up control and DC fault ride-through strategies of a hybrid MMC-HVDC system suitable for overhead line transmission

Jianzhong Xu, Chengyong Zhao, Zhipeng He, Yuqun Guo
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引用次数: 20

Abstract

In this paper, a hybrid MMC-HVDC system which is composed of half-bridge submodules and full-bridge submodules is investigated to enable its capability during startup and severe dc fault conditions. Firstly, a novel two-stage startup control sequence is proposed considering the topological differences compared to the traditional half-bridge MMC-HVDC system. Then the ride-through strategies of the hybrid system under severe dc-side faults including single pole to ground fault and permanent pole to pole short circuit fault are proposed. Using the proposed schemes, under single pole fault, the dc power, dc current and the dc-link voltage are reduced to guarantee the maximum power transfer and protect the semiconductor devices and dc transmission line from over currents. Also, under pole to pole fault, the hybrid system can cut off the dc short circuit current by the dual converters of both sides and is ready for power recovery after fault cleared. The effectiveness of the proposed strategies are validated by a two-terminal reduced-size 21-level hybrid MMC-HVDC model on PSCAD/EMTDC.
适用于架空输电的MMC-HVDC混合系统启动控制及直流故障穿越策略
本文研究了由半桥子模块和全桥子模块组成的MMC-HVDC混合系统在启动和严重直流故障情况下的性能。首先,考虑到与传统半桥MMC-HVDC系统的拓扑结构差异,提出了一种新的两级启动控制序列。在此基础上,提出了直流侧严重故障(单极对地故障和永久极对极短路故障)下混合系统的穿越策略。采用该方案,在单极故障情况下,降低了直流功率、直流电流和直流链路电压,保证了最大功率的传输,保护了半导体器件和直流传输线的过流。同时,在极对极故障情况下,混合系统可以通过两侧的双变流器切断直流短路电流,为故障清除后的电力恢复做好准备。通过PSCAD/EMTDC上的二端缩小尺寸21级混合MMC-HVDC模型验证了所提出策略的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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