Assessment of Harmonic Distortion Associated with PV Penetration in a Low Voltage Distribution Network

2020 IEEE PES Transmission & Distribution Conference and Exhibition - Latin America (T&D LA) Pub Date : 2020-09-28 DOI:10.1109/TDLA47668.2020.9326177

Johanna S. Castellanos A., Diego Patiño Guevara, C. Correa-Flórez, G. Ordóñez-Plata

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Abstract

The photovoltaic penetration brings huge challenges to the distribution networks operators in different aspects related with the power quality. This paper pretends to show an assessment of the distortion of current and voltage signals caused by photovoltaic penetration of a low voltage distribution network based on a CIGRE benchmark with European configuration, which contains three subnetworks, namely residential, industrial and commercial. For this purpose ten photovoltaic systems are proposed, five in the residential, one in the industrial and four in the commercial subnetwork. All of them in five scenarios where each photovoltaic system changes its power rate according to the penetration percentage which could be 1%, 5%, 15%, 30% or 50%. The simulation is developed in OpenDSS software together with Python where the total harmonic distortion of current and voltage are calculated. Additionally, the total losses of the system are presented by each scenario. Results show that the voltage distortion in the transformer points is too small, however, the current distortion exceeds quality standard conditions, especially the residential subnetwork which achieves a current distortion around 80% in the scenario with highest penetration.

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低压配电网中与光伏渗透相关的谐波畸变评估

光伏发电的普及给配电网运营商带来了与电能质量相关的诸多挑战。本文拟基于欧洲配置的CIGRE基准，对光伏渗透低压配电网引起的电流和电压信号失真进行评估，该基准包含三个子网，即住宅、工业和商业。为此，提出了十个光伏系统，五个用于住宅，一个用于工业，四个用于商业子网。所有这些都是在五种场景下，每个光伏系统根据渗透率变化其功率率，可以是1%，5%，15%，30%或50%。在OpenDSS软件和Python软件中进行了仿真，计算了电流和电压的总谐波畸变。此外，系统的总损失按每种情况给出。结果表明，变压器各点的电压畸变很小，但电流畸变超过质量标准条件，特别是住宅子网在渗透率最高的情况下，电流畸变达到80%左右。

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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2020 IEEE PES Transmission & Distribution Conference and Exhibition - Latin America (T&D LA)

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