Node Voltage Estimation of Distribution System Using Artificial Neural Network Considering Weather Data

2021 IEEE Kansas Power and Energy Conference (KPEC) Pub Date : 2021-04-19 DOI:10.1109/KPEC51835.2021.9446209

Kesh Pun, Saurav M. S. Basnet, W. Jewell

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Abstract

Load flow analysis using traditional methods for power flow is becoming complex (reverse power flow and voltage volatility) due to the configuration complexity brought about by renewable energy resource (RER) integration. The variable and intermittent nature of RER integration also contributes to the power flow complexity. Power system operators should be aware of the state of the operation. An alternative to traditional power flow methods could be an artificial intelligence technique. Therefore, in this study, the node voltage estimation of a distribution system using an artificial neural network (ANN) has been proposed. Since a significant portion of residential load and RER generation are dependent on weather conditions, load flow analysis including weather data in GridLAB-D has been carried out. Typical meteorological year (TMY) information has been used as the weather data. Results show that node voltage estimation using the ANN technique is robust on different photovoltaic (PV) and wind power penetration levels as well as the significant loss of load measurement data and/or PV and wind generation data.

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考虑天气数据的配电系统节点电压人工神经网络估计

由于可再生能源(RER)集成带来的配置复杂性，传统潮流分析方法变得复杂(反向潮流和电压波动)。RER集成的可变和间歇性也增加了潮流的复杂性。电力系统操作人员应了解其运行状态。人工智能技术可以替代传统的潮流方法。因此，本文提出了一种基于人工神经网络的配电系统节点电压估计方法。由于住宅负荷和RER发电的很大一部分依赖于天气条件，因此在GridLAB-D中进行了包括天气数据在内的负荷流分析。天气资料采用典型气象年(TMY)资料。结果表明，采用人工神经网络技术的节点电压估计对不同的光伏和风力发电渗透水平以及负载测量数据和/或光伏和风力发电数据的显著损失具有鲁棒性。

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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2021 IEEE Kansas Power and Energy Conference (KPEC)

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