Transient Voltage Support Strategy of Grid-Forming Medium Voltage Photovoltaic Converter in the LCC-HVDC System

IF 6.9 2区 工程技术 Q2 ENERGY & FUELS
Hong Lu;Xianyong Xiao;Guangfu Tang;Zhiyuan He;Zhiguang Lin;Chong Gao;Zixuan Zheng
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Abstract

The participation of photovoltaic (PV) plants in supporting the transient voltage caused by commutation failure in the line-commutated-converter-based high voltage direct current (LCC-HVDC) system is of great significance, as it can enhance the DC transmission ability. However, it is found that the grid-following (GFL) PV converters face the problem of mismatch between reactive power response and transient voltage characteristic when the voltage converts from low voltage to overvoltage, further aggravating the overvoltage amplitude. Thus, this article proposes a transient voltage support strategy based on the grid-forming (GFM) medium voltage PV converter. The proposed strategy takes the advantage of the close equivalent electrical distance between the converter and grid, which can autonomously control the converter terminal voltage through GFM control with adaptive voltage droop coefficient. The simulation results show that the proposed strategy can ensure the output reactive power of the PV converter quickly matches the transient voltage characteristic at different stages, indicating that the proposed strategy can effectively support the transient voltage.
LCC-HVDC 系统中并网型中压光伏逆变器的瞬态电压支持策略
在基于线路换向变流器的高压直流(LCC-HVDC)系统中,光伏电站参与支持换向故障引起的瞬态电压具有重要意义,因为它可以增强直流输电能力。但研究发现,当电压从低电压转换为过电压时,电网跟随(GFL)光伏变流器面临着无功响应与瞬态电压特性不匹配的问题,进一步加剧了过电压幅值。因此,本文提出了一种基于电网成形(GFM)中压光伏变流器的暂态电压支持策略。该策略利用变流器与电网之间的等效电气距离较近的优势,通过具有自适应电压下垂系数的 GFM 控制来自主控制变流器的端电压。仿真结果表明,所提出的策略能确保光伏变流器的输出无功功率快速匹配不同阶段的暂态电压特性,表明所提出的策略能有效支持暂态电压。
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
CiteScore
11.80
自引率
12.70%
发文量
389
审稿时长
26 weeks
期刊介绍: The CSEE Journal of Power and Energy Systems (JPES) is an international bimonthly journal published by the Chinese Society for Electrical Engineering (CSEE) in collaboration with CEPRI (China Electric Power Research Institute) and IEEE (The Institute of Electrical and Electronics Engineers) Inc. Indexed by SCI, Scopus, INSPEC, CSAD (Chinese Science Abstracts Database), DOAJ, and ProQuest, it serves as a platform for reporting cutting-edge theories, methods, technologies, and applications shaping the development of power systems in energy transition. The journal offers authors an international platform to enhance the reach and impact of their contributions.
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