送端系统故障下考虑有功无功交互影响的暂态过电压机理及控制策略

史映萍; 尹纯亚; 李凤婷; 韩 璐; 刘江山; 张雨乐

引用本文:	史映萍,尹纯亚,李凤婷,等.送端系统故障下考虑有功无功交互影响的暂态过电压机理及控制策略[J].电力系统保护与控制,2024,52(21):117-128.[点击复制]
	SHI Yingping,YIN Chunya,LI Fengting,et al.Transient overvoltage mechanism and control strategy considering active and reactive interaction when there is a fault in the sending end AC system[J].Power System Protection and Control,2024,52(21):117-128[点击复制]

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送端系统故障下考虑有功无功交互影响的暂态过电压机理及控制策略
史映萍,尹纯亚,李凤婷,韩璐,刘江山,张雨乐
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(新疆大学电气工程学院，新疆乌鲁木齐 830017)

摘要:

送端系统故障下整流器有功无功交互耦合会导致暂态过电压。针对此问题，首先，明确了直流功率、整流器无功消耗量的主导因素，深入剖析了送端故障引发的换相失败(commutation failure, CF)后整流器无功消耗量、直流功率的耦合规律，得出直流电流上升阶段二者呈负相关，直流电流下降阶段二者呈正相关的结论。其次，分析了故障恢复期间暂态电压幅值的影响因素，阐明了不同故障严重程度下考虑有功无功交互耦合的暂态过电压机理。然后，建立了送端系统有功不平衡量、整流器无功消耗量与直流电流的数学关系。基于无功功率与母线电压的数学关系以及有功无功交互耦合规律，提出一种考虑有功支撑的暂态过电压控制策略。最后，基于PSCAD/EMTDC的仿真结果验证了理论分析的正确性以及所提控制策略的有效性。

关键词: 送端交流系统有功功率暂态电压幅值故障严重程度控制策略

DOI：10.19783/j.cnki.pspc.240062

投稿时间：2024-01-12修订日期：2024-05-21

基金项目:国家自然科学基金项目资助(5236070148)

Transient overvoltage mechanism and control strategy considering active and reactive interaction when there is a fault in the sending end AC system

SHI Yingping,YIN Chunya,LI Fengting,HAN Lu,LIU Jiangshan,ZHANG Yule

(College of Electrical Engineering, Xinjiang University, Urumqi 830017, China)

Abstract:

There is a transient overvoltage problem caused by the active and reactive power interaction coupling of the rectifier when a fault occurs in the sending end AC system. First, the main influencing factors for DC power and reactive power consumed by the rectifier are clarified, and the coupling relationship between reactive power consumption and DC power of the rectifier after commutation failure (CF) caused by a sending end AC system fault is analyzed. It is concluded that the relationship between reactive power and DC power is negatively correlated during the rising stage of DC current, and the relationship is positively correlated during the falling stage. Secondly, the influencing factors of the transient voltage amplitude during the fault recovery period are analyzed, and the transient overvoltage mechanism considering the interaction coupling of active and reactive power under different fault severity is clarified. Then, the mathematical relationship among the unbalanced active power of the sending end system, the reactive power consumed by the rectifier and the DC current is established. Based on the mathematical relationship between the reactive power and the bus voltage, and considering the interaction coupling relationship between active and reactive power, a transient overvoltage control strategy considering the active power support is proposed. Finally, the simulation results based on PSCAD/EMTDC verify the accuracy of the theoretical analysis and the effectiveness of the proposed control strategy.

Key words: sending end AC system active power transient voltage amplitude fault severity control strategy

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