Design of an Interconnected Microgrid for the Electrification of San Pablo II Community: Case of Study Dominican Republic

2020 IEEE International Smart Cities Conference (ISC2) Pub Date : 2020-09-28 DOI:10.1109/ISC251055.2020.9239093

Miguel Euclides Aybar Mejía, D. Mariano-Hernández, René Báez Santana, Eduardo de León Concepción, Alejandro Arias Martijena, Alexis Castillo Ruiz, D. L. Mendoza, Edwin Cadet Fabal Suero

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引用次数: 1

Abstract

Universal access to electrical energy, specifically non-polluting energy, is one of the United Nations Organization Sustainable Development Goals, due to its impact on human and economic development. Even with the significant advances in the electricity sector in the Dominican Republic, there are sectors of the population without access to electricity, as is the case of the San Pablo 2 community in the municipality of La Victoria in Santo Domingo Norte. This article proposes using an interconnected microgrid, with photovoltaic (PV) solar generation and a storage system with lithium-ion batteries for the electrification of San Pablo 2 and the determination of the technical-economic feasibility of the proposed microgrid design using the HOMER and DIgSILENT. The results show the microgrid’s optimal configuration, considering the net present cost, leveled cost of energy, and energy availability. Similarly, the distribution of the components and loads to obtain a voltage behavior and a technically acceptable margin of losses.

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圣巴勃罗二世社区电气化互联微电网设计:以多米尼加共和国为例

普遍获得电能，特别是无污染能源，由于其对人类和经济发展的影响，是联合国组织可持续发展目标之一。尽管多米尼加共和国的电力部门取得了重大进展，但仍有部分人口无法获得电力，例如圣多明各北部拉维多利亚市的圣巴勃罗社区。本文建议使用一个相互连接的微电网，光伏(PV)太阳能发电和锂离子电池存储系统，用于San Pablo 2的电气化，并确定使用HOMER和DIgSILENT提出的微电网设计的技术经济可行性。结果显示了考虑净当前成本、能源水平成本和能源可用性的微电网的最优配置。同样，元件和负载的分布，以获得电压特性和技术上可接受的损耗裕度。

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 International Smart Cities Conference (ISC2)

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