DOI: 10.3390/electronics15132859 ISSN: 2079-9292

Transient Overvoltage Analysis and Insulation Coordination for an ±800 kV/8 GW MMC-Based Ultra-High-Voltage DC Transmission System

Xiaorui Liu, Guoliang Zhou, Tiantian He, Lianhui Ning, Weiwen Zeng, Lingfeng Xia, Haoyuan Li, Qingxin Wang, Junyuan Zhang, Ruoxi Fan, Xinliang Liu, Hanjin Song

Facing the demand of long-distance, high-voltage and high-power transmission, the research on MMC-UHVDC (Modular Multilevel Converter based Ultra High Voltage Direct Current) has become a hot issue. This paper focuses on the ±800 kV/8 GW UHVDC transmission system to conduct simulation modelling and insulation coordination studies. First, broadband models of the main circuit and primary equipment are established to simulate and analyse the distribution characteristics of both switching and lightning transient overvoltages under typical faults. Second, based on the overvoltage severity at critical nodes, two surge arrester configuration schemes with distinct internal valve protection topologies are proposed. Finally, an Improved Fuzzy Analytic Hierarchy Process (FAHP) is introduced to perform a quantitative techno-economic evaluation of the comparative schemes. The results demonstrate that the optimised configuration successfully suppresses extreme overvoltages at vulnerable sub-module nodes, maintaining adequate insulation margins. These research findings provide a highly reliable mathematical framework and engineering reference for the safe design of UHVDC systems.

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