电网故障下具有直流电压控制的lc - hvdc逆变器暂态稳定性分析

IF 5 2区工程技术 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

International Journal of Electrical Power & Energy Systems Pub Date : 2025-05-20 DOI:10.1016/j.ijepes.2025.110765

Zhiwei Lei, Junpeng Ma, Shunliang Wang, Ning Jiao, Tianqi Liu, Ruiting Xu

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引用次数: 0

摘要

后续换相故障（SCF）是接收端基于线路换相变换器的高压直流电（lc - hvdc）的固有问题。LCC的直流-交流转换、换相重叠、传输功率与电网电压的关系等非线性特性使电网故障下SCF的建模和理论分析变得复杂，这也给抑制SCF提出了挑战。针对上述问题，提出了一种相位画像分析方法来描述电网故障时SCF的动态特性。在本文提出的分析方法中，推导了逆变器的大信号模型，并对控制参数、栅格凹陷深度和栅格阻抗等SCF的主要诱因进行了定量阐述。此外，设计了一种自适应PI控制器，用于稳态和电网故障情况下的直流电压控制，保证了逆变器在不同程度电网故障情况下的安全运行。在此基础上，给出了在瞬变过程中保持最高直流电压的参数边界。实验结果验证了分析和策略的有效性。

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Design-Oriented transient stability analysis of LCC-HVDC inverter with DC voltage control under grid fault

Subsequent commutation failure (SCF) is an inherent issue for the line-commutated-converter based high voltage direct current (LCC-HVDC) in the receiving end. Nonlinear natures of LCC, such as the DC-AC conversion, commutation overlaps, relation between the transmitted power and grid voltage, etc. complicate the modeling and theoretical analysis for SCF under grid faults, which also poses challenges to the suppression of SCF. To address the above issues, the phase portraits analysis method is developed to depict the dynamics of SCF during grid faults. In the proposed analysis method, the large-signal model of the inverter is derived, hereafter, the dominant inducements of SCF, including control parameters, grid sag depth, and grid impedance are elaborated quantitatively. Moreover, an adaptive PI controller is designed for DC voltage control in both steady state and grid fault conditions, which can ensure the safe operation of the inverter under various degrees of grid fault. Then parametric boundaries for maintaining the highest DC voltage during transients are also obtained. Experimental results verify the effectiveness of the analysis and the proposed strategy.

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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.