Research on Operation Control Strategy of the CSC-HVDC Transmission System Based on Current Reinjection Conversion

2022 International Conference on Power Energy Systems and Applications (ICoPESA) Pub Date : 2022-02-25 DOI:10.1109/ICoPESA54515.2022.9754431

Wu Haitao, L. Yonghe, Wang Zhihe

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Abstract

The thyristor multi-level current source converter based on the current reinjection conversion technology can realize the controlled shutdown of the thyristor under zero current condition, which provides a new idea for overcoming the shortcomings of the traditional LCC-HVDC system. The use of double-group multilevel converters can realize independent control of the amplitude and phase of the ac output current, thereby providing the possibility to realize the four-quadrant operation of the active and reactive power of the CSC-HVDC system. Based on this, this paper takes the point-to-point HVDC transmission system as the research object, derives the system mathematical model and establishes the control model. A complete digital simulation model of the CSC-HVDC transmission system is built on the PSCAD platform, and the simulation results show that the proposed control strategy can ensure that the system has excellent dynamic and static operating performance under normal and fault conditions of the power grid.

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基于回注电流转换的CSC-HVDC输电系统运行控制策略研究

基于电流回注转换技术的可控硅多级电流源变换器可以实现零电流条件下可控硅的可控关断，为克服传统lc - hvdc系统的缺点提供了新的思路。采用双组多电平变流器可以实现交流输出电流幅相的独立控制，从而为实现CSC-HVDC系统有功、无功四象限运行提供了可能。在此基础上，本文以点对点直流输电系统为研究对象，推导了系统数学模型，建立了控制模型。在PSCAD平台上建立了CSC-HVDC输电系统的完整数字仿真模型，仿真结果表明，所提出的控制策略能够保证系统在电网正常和故障工况下具有优异的动静态运行性能。

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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来源期刊

2022 International Conference on Power Energy Systems and Applications (ICoPESA)

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