Reactive Power and AC Voltage Support from Flexible LCC HVDC to Wind Energy Integrated Power System

Ying Xue, Conghuan Yang, Xiao-Ping Zhang
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引用次数: 1

Abstract

Conventional LCC HVDC system is unable to provide dynamic reactive power and AC voltage support to power system during transient events. This can have adverse impacts on the renewable generation that is connected to the same power system such as wind farms. This paper aims to demonstrate that the Flexible LCC HVDC system can provide dynamic reactive power and AC voltage support to a wind integrated power system. The Flexible LCC HVDC system is able to quickly inject reactive power into the system, reducing the voltage drop and increasing the speed of voltage recovery. This will help the wind farms in riding through the fault. At the same time, due to the elimination of Commutation Failure (CF) in the Flexible LCC HVDC system, it is able to maintain a relatively stable active power transfer as well. Simulation comparisons between the conventional LCC HVDC and the Flexible LCC HVDC based on a wind integrated two area power system have been presented to validate the performance.
从柔性LCC HVDC到风能综合电力系统的无功和交流电压支持
传统的LCC直流输电系统无法在暂态事件中为电力系统提供动态无功和交流电压支持。这可能会对连接到风力发电场等同一电力系统的可再生能源发电产生不利影响。本文旨在证明柔性LCC高压直流输电系统可以为风力发电系统提供动态无功和交流电压支持。柔性LCC高压直流系统能够快速向系统注入无功功率,减少电压降,提高电压恢复速度。这将有助于风力发电场穿越断层。同时,由于柔性LCC高压直流系统消除了换相故障(CF),也能够保持相对稳定的有功传输。通过对传统LCC高压直流输电系统和基于风集成两区电力系统的柔性LCC高压直流输电系统的仿真比较,验证了其性能。
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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