Voltage Compensation Method for Multi-feeder Distribution Networks Based on a UPQC with PV Injection

Xielin Shen, Bo Yuan, Weiwen Peng, Hua Ye, Tiantian Dong
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Abstract

In response to the problem of prolonged low voltage at the end of distribution grids, a voltage compensation method for multi-feeder distribution networks based on a unified power quality controller (UPQC) with PV injection is proposed in this paper. In the proposed scheme, two series inverters, a single parallel rectifier and photovoltaic (PV) system are flexibly interconnected via DC bus. The voltage attenuation can be compensated by the two series inverter, and the parallel rectifier is capable of supplying energy to the DC side of the two series inverters on adjacent AC feeders. Meanwhile, active power can also be supplied by the PV panel through a DC/DC converter. The operation modes and control strategies of the proposed method are analyzed in-depth. Finally, a MATLAB/Simulink model is shown to verify the effectiveness of the method proposed in this paper.
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基于光伏注入式 UPQC 的多馈线配电网络电压补偿方法
针对配电网末端长期低电压的问题,本文提出了一种基于光伏注入的统一电能质量控制器(UPQC)的多馈线配电网电压补偿方法。在所提出的方案中,两个串联逆变器、一个并联整流器和光伏(PV)系统通过直流母线灵活互连。两个串联逆变器可补偿电压衰减,并联整流器可向相邻交流馈线上两个串联逆变器的直流侧供电。同时,光伏电池板还可通过 DC/DC 转换器提供有功功率。深入分析了所提方法的运行模式和控制策略。最后,通过 MATLAB/Simulink 模型验证了本文所提方法的有效性。
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