光伏电站接入柔性直流系统的交流侧不对称故障稳态特征研究

马红月<sup>1</sup>; 李 岩<sup>2</sup>; 张 涛<sup>1</sup>; 曹润彬<sup>2</sup>; 郑 涛<sup>1</sup>; 郝治国<sup>1</sup>

引用本文:	马红月,李岩,张涛,等.光伏电站接入柔性直流系统的交流侧不对称故障稳态特征研究[J].电力系统保护与控制,2025,53(24):100-110.[点击复制]
	MA Hongyue,LI Yan,ZHANG Tao,et al.Steady-state characteristics of AC side asymmetrical faults in PV power plants integrated to VSC-HVDC systems[J].Power System Protection and Control,2025,53(24):100-110[点击复制]

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光伏电站接入柔性直流系统的交流侧不对称故障稳态特征研究
马红月¹,李岩²,张涛¹,曹润彬²,郑涛¹,郝治国¹
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(1.西安交通大学电气工程学院，陕西西安 710049;2.南方电网科学研究院有限责任公司，广东广州 510063)

摘要:

针对光伏电站接入柔性直流系统的交流侧故障特征受双端电力电子设备输出特性影响而与传统交流系统存在显著差异的问题，提出结合系统拓扑、换流器故障控制策略的稳态故障特征分析方法，以明晰设备间的序分量耦合特性。首先，针对光伏电站接入柔性直流系统的交流侧不对称短路进行稳态故障特征分析，揭示了双端电力电子设备输出电流的受控特征，以及换流器并网点电压与输出电流之间的序分量耦合关系。然后，重点分析了当光伏电站采用负序电流抑制策略时，柔直换流器成为了系统唯一的负序电源，得出了单相接地短路和相间短路的故障相差流特征与柔直换流器的负序电流存在定量关系的结论。同时指出了柔直换流器的负序电流限幅极大地改变了系统的序分量特征。最后，通过某大规模光伏电站接入柔性直流系统的电磁暂态仿真，验证了稳态故障特征分析结论的正确性，为电力电子化新型电力系统保护原理的研究提供了理论与技术支撑。

关键词: 光伏电站柔性直流稳态故障特征交流故障控制策略序分量耦合

DOI：10.19783/j.cnki.pspc.250119

投稿时间：2025-02-05修订日期：2025-07-12

基金项目:国家自然科学基金项目资助(U23B20112)

Steady-state characteristics of AC side asymmetrical faults in PV power plants integrated to VSC-HVDC systems

MA Hongyue¹,LI Yan²,ZHANG Tao¹,CAO Runbin²,ZHENG Tao¹,HAO Zhiguo¹

(1. School of Electrical Engineering, Xi’an Jiaotong University, Xi’an 710049, China; 2. Electric Power Research Institute of China Southern Power Grid, Guangzhou 510063, China)

Abstract:

To address the issue that the AC-side fault characteristics of photovoltaic (PV) power plants integrated into VSC-HVDC differ significantly from those of traditional AC systems due to the influence of power electronic devices at both ends, a steady-state fault characteristic analysis method is proposed that incorporates system topology and converter fault control strategies, in order to clarify the sequence-component coupling among devices. First, steady-state fault characteristics of AC-side asymmetric faults in PV power plants connected to VSC-HVDC are analyzed. The results reveal the controllable nature of the output currents from power electronic devices at both ends, as well as the relationship of sequence-component coupling between converter’s grid-connected point voltage and its output current. Then, it is emphasized that when the PV power plants adopt the negative-sequence current suppression strategy, the HVDC converter becomes the sole source of negative-sequence current in the system. It is further concluded that, under single-phase-to-ground faults and phase-to-phase faults, the fault phase current differences exhibit a quantitative relationship with the negative-sequence current of the HVDC converter. It is also noted that the negative-sequence current limiting of the converter significantly alters the system’s sequence-component characteristics. Finally, the correctness of the steady-state fault characteristic analysis is verified through electromagnetic transient simulations of a large-scale PV power plant integrated into a VSC-HVDC system, providing theoretical and technical support for the research of protection principles in power electronics dominated new power systems.

Key words: PV power plant VSC-HVDC steady-state fault characteristics AC fault control strategy sequence-component coupling

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