基于数据科学方法的光伏-风能混合智能微电网研究

J. C. Saire, Joseph Roque, Franco Canziani
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引用次数: 0

摘要

本文使用数据科学方法研究了在秘鲁伊卡州帕拉卡斯实施的智能微电网,该电网由6千瓦光伏+ 6千瓦风能组成,为40个家庭的农村社区提供电力。研究蓄电池组2个运行周期的太阳辐照度、风速、能源需求和电压的真实数据,找出分析数据之间的规律、季节性和存在的相关性。主要结果包括可再生资源和需求的周期性,电力需求的每周行为以及它如何从2019年的平均0.7千瓦逐步增加到2021年的1.2千瓦,以及当资源不足或电池组出现故障时,如何在早晨的某些时间重复停电。这些分析的数据将用于改进尺寸技术,并为能源管理提供建议,以优化智能微电网的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Study Of A Hybrid Photovoltaic-Wind Smart Microgrid Using Data Science Approach
In this paper, a smart microgrid implemented in Paracas, Ica, Peru, composed of 6 kWp PV + 6 kW Wind and that provides electricity to a rural community of 40 families, was studied using a data science approach. Real data of solar irradiance, wind speed, energy demand, and voltage of the battery bank from 2 periods of operation were studied to find patterns, seasonality, and existing correlations between the analyzed data. Among the main results are the periodicity of renewable resources and demand, the weekly behavior of electricity demand and how it has progressively increased from an average of 0.7 kW in 2019 to 1.2 kW in 2021, and how power outages are repeated at certain hours in the morning when resources are low or there is a failure in the battery bank. These analyzed data will be used to improve sizing techniques and provide recommendations for energy management to optimize the performance of smart microgrids.
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