SOLAR PHOTOVOLTAIC-BASED DC MICROGRID TESTING UNDER REAL-WORLD OPERATING CONDITIONS

The 10th International Conference on Power Electronics, Machines and Drives (PEMD 2020) Pub Date : 1900-01-01 DOI:10.1049/icp.2021.0973

P. Torres, T. Costa, L. Araújo, José A. O. Filho, S. Williamson, W. Macêdo

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引用次数: 1

Abstract

The concept of direct current distribution minigrids has been gaining ground in academia and industry regarding the development of distribution grid applications with high penetration of distributed energy sources and storage systems, as DC distribution system facilitates the grid's integration of sources and loads. This work presents the development of a direct current distribution microgrid installed in the laboratory of the Grupo de Estudos e Desenvolvimento de Alternativas Energéticas, of the Universidade Federal do Pará. The developed grid is composed of three combined photovoltaic generation and battery storage systems, utiling commercial charge controllers as interfaces onto the, and three load banks. These are distributed over the 200 m grid in a ring topology, with a nominal 24 VDC bus. Measurements are made at strategic points on the grid to access the system behavior under specific operating conditions, being normal or under fault conditions. The results attest the microgrid's ability to reliably supply the loads, as long as it respects the limitations of the implemented power generation and storage capacities. In addition, it was found that the characteristics related to the topology of the commercial charge controller benefits the power quality for the developed grid size and topology.

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基于太阳能光伏的直流微电网在实际运行条件下的测试

随着分布式能源和存储系统的高度渗透，随着配电网应用的发展，直流配电系统促进了电网的源负荷一体化，直流配电微型电网的概念在学术界和工业界得到了广泛的应用。这项工作介绍了安装在联邦帕尔大学替代能源研究和发展小组实验室的直流配电微电网的发展。开发的电网由三个光伏发电和电池存储系统组成，利用商业充电控制器作为接口，以及三个负载组。它们以环形拓扑结构分布在200米的电网上，具有标称的24 VDC总线。测量是在电网的策略点上进行的，以访问特定操作条件下的系统行为，正常或故障条件下。结果表明，微电网在不受实际发电和储能能力限制的情况下，能够可靠地为负荷供电。此外，研究还发现，商用电荷控制器的拓扑相关特性有利于改进电网尺寸和拓扑结构的电能质量。

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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The 10th International Conference on Power Electronics, Machines and Drives (PEMD 2020)

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