Dispatchable power source control for battery bank charging through a bidirectional grid forming converter in isolated microgrid

2021 IEEE PES Innovative Smart Grid Technologies Conference - Latin America (ISGT Latin America) Pub Date : 2021-09-15 DOI:10.1109/ISGTLatinAmerica52371.2021.9543077

Alyston Claydson V. Nascimento, H. A. Oliveira, J. G. de Matos, L. A. de Souza Ribeiro

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Abstract

Energy storage systems with batteries are critical points in isolated microgrids. Charging depends on the manufacturing technology, the methodology established by the manufacturer, and must be controlled depending on the voltage and current, considering the state of charge of the batteries, the power sources, and the load. In this work, a control for a dispatchable power source connected to the distribution network for charging battery banks in isolated microgrid is proposed, considering the dynamics of a distributed generation system. This control was implemented through a PAC (Programmable Automation Controller), considering two main charging approaches: a) a full battery bank charging, made when the battery state of charging reach the minimum permitted level, and b) a partial battery bank charging, made when the 90% of the maximum state of charging is not reached in the day. A real and consolidated system was used as a case study: this system is the isolated microgrid with generation distributed in Ilha Grande, northeastern Brazil.

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隔离微电网双向并网变换器对蓄电池组充电的可调度电源控制

电池储能系统是孤立微电网的关键点。充电取决于制造技术，制造商制定的方法，并且必须根据电压和电流进行控制，考虑电池，电源和负载的充电状态。本文考虑了分布式发电系统的动态特性，提出了一种隔离微电网中接入配电网的可调度电源的控制方法。这种控制是通过PAC(可编程自动化控制器)实现的，考虑了两种主要的充电方法:a)当电池充电状态达到最低允许水平时，进行完全充电;b)当电池充电状态达到最大充电状态的90%时，进行部分充电。本文以一个真实的整合系统作为案例研究:该系统是一个孤立的微电网，其发电分布在巴西东北部的格兰德岛。

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 PES Innovative Smart Grid Technologies Conference - Latin America (ISGT Latin America)

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