Cable Effects on Noise Propagation in Distribution Networks with Renewable Sources

2022 20th International Conference on Harmonics & Quality of Power (ICHQP) Pub Date : 2022-05-29 DOI:10.1109/ICHQP53011.2022.9808610

Lu Wan, A. Beshir, Xinglong Wu, Xiaokang Liu, F. Grassi, G. Spadacini, S. Pignari, M. Zanoni, R. Chiumeo, L. Tenti

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Abstract

The development of power electronics for the integration of renewable energy sources in power distribution networks leads to increasing issues in terms of coexistence with communication systems, e.g., those based on powerline communications. This is due to the high-frequency noise currents, conducted emissions (CE), which, generated by power electronics devices, can propagate along the network through power cables. With the objective to provide guidelines to assure coexistence with communications systems, in this work a LV/MV distribution network is modelled and simulated in the frequency domain to predict the noise in different branches and to identify the factors that mostly affect CE propagation. The analysis mainly focuses on the effects due to power cables, and puts in evidence the need for their accurate modelling through transmission line theory in order to account for different cable features, such as per-unit-length parameters, cable length, and terminal conditions, which influence CE propagation.

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可再生能源配电网中电缆对噪声传播的影响

为了将可再生能源整合到配电网中的电力电子技术的发展，导致与通信系统(例如基于电力线通信的通信系统)共存的问题越来越多。这是由于电力电子设备产生的高频噪声电流，即传导辐射(CE)，可以通过电力电缆沿网络传播。为了提供指导方针，以确保与通信系统共存，在本工作中，对低压/中压配电网络进行了频域建模和仿真，以预测不同支路的噪声，并确定主要影响CE传播的因素。分析主要集中在电力电缆的影响上，并证明需要通过传输线理论对其进行准确建模，以便考虑影响CE传播的不同电缆特征，如单位长度参数、电缆长度和终端条件。

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

2022 20th International Conference on Harmonics & Quality of Power (ICHQP)

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