Impact of PV systems on microgrids under different levels of penetration and operational scenarios

2017 Brazilian Power Electronics Conference (COBEP) Pub Date : 2017-11-01 DOI:10.1109/COBEP.2017.8257336

E. A. F. Nunes, D. K. Alves, E. S. Dantas, T. O. A. Rocha, R. Ribeiro, F. Costa

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引用次数: 8

Abstract

The insertion of photovoltaic (PV) systems on the small-scale low voltage (LV) networks can result in operational instability conditions due to the PV undispatched behavior and current harmonic injection. This paper presents a study of the impact evaluation of PV systems with different penetration levels and operational scenarios in a LV network. The conducted studies evaluate the effects verified at the point of common coupling (PCC) when PV system injects power with different penetration levels. For evaluating these effects, the internal impedance of the PCC is estimated based on a injection signal scheme. The network impacts evaluation uses standards for small-scale grid-connected PV systems in which reactive power compensation is rarely implemented. Experimental results demonstrate the impact of PV by analysing the variables: voltage fluctuation, harmonic distortion, and unbalanced level. Based on this, it is possible to evaluate the impact of the PV on the LV networks, which provides a strategic information for determining the proper penetration level for insertion small-scale PVs LV microgrids.

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不同渗透水平和运行情景下光伏系统对微电网的影响

由于光伏系统的不调度行为和电流谐波注入，在小规模低压电网中插入光伏系统会导致运行不稳定。本文研究了低压电网中不同渗透水平和运行场景下光伏系统的影响评估。所进行的研究评估了光伏系统注入不同穿透水平的电力时在共耦合点(PCC)验证的效果。为了评估这些影响，基于注入信号方案估计了PCC的内部阻抗。网络影响评估采用的标准适用于很少实施无功补偿的小型并网光伏系统。实验结果通过分析电压波动、谐波失真和不平衡水平等变量，证明了PV对系统的影响。在此基础上，可以评估PV对低压电网的影响，为确定小规模PV插入低压微电网的适当渗透水平提供战略信息。

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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2017 Brazilian Power Electronics Conference (COBEP)

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