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An intelligent battery management system based on fuzzy controller for home microgrid working in grid-connected and island mode

机译：基于模糊控制器的并网孤岛式家庭微电网智能电池管理系统

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This paper presents an intelligent battery management system (iBMS) used in Home Microgrid working in a grid-connected and island mode. The microgrid is composed by a PV generator, Battery system and a small residential group. This microgrid is located in a Caribbean zone which an average solar radiation greater than 1000 W/m2 but, with large intermittency due to the movement of cloud and also a high probability of weather disasters. The iBMS considers a fuzzy controller for both grid-connected and island mode. The rules are defined by the behavior of the people living in houses, the intermittent energy available from the PV generator, the state of charge (SOC) of the battery and the contracted power from the electric mains. Also the iBMS considered two blocks of demand respond (DR) using non-critical electric loads available in houses. The main objectives of the iBMS is to supply electric power to houses using the available energy, not to generate disturbance to the electric mains when the microgrid is working in connected mode, and also always to maintain the battery SOC in the possible maximum.

机译：本文介绍了一种智能电池管理系统（iBMS），该系统用于并网和孤岛模式的Home Microgrid。微电网由光伏发电机，电池系统和一个小型居民团体组成。该微电网位于加勒比海地区，该地区的平均太阳辐射大于1000 W / m2，但是由于云的移动而具有较大的间歇性，而且很容易发生天气灾害。 iBMS考虑并网和孤岛模式的模糊控制器。这些规则由居住在房屋中的人们的行为，可从PV发电机获得的间歇性能源，电池的充电状态（SOC）和来自市电的合同规定的功率定义。 iBMS还考虑了使用房屋中可用的非关键电力负载的两个需求响应（DR）块。 iBMS的主要目标是使用可用能量为房屋供电，当微电网在连接模式下工作时，不对电源产生干扰，并且始终将电池SOC保持在可能的最大值。

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《Proceedings of the 2016 IEEE ANDESCON》|2016年|1-4|共4页
会议地点 Arequipa(PE)
作者
Christopher Lebrón; Fabio Andrade;
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作者单位

Department of Electrical and Computer Engineering, University of Puerto Rico, Mayaguez Campus, Mayaguez, Puerto Rico;

Department of Electrical and Computer Engineering, University of Puerto Rico, Mayaguez Campus, Mayaguez, Puerto Rico;

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原文格式 PDF
正文语种 eng
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关键词
Microgrids; Batteries; State of charge; Battery management systems; Generators; Photovoltaic systems; Fuzzy logic;

机译：微电网;电池;充电状态;电池管理系统;发电机;光伏系统;模糊逻辑;

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3. Controller Hardware-in-the-Loop Testing of an IEC 61850 GOOSE Based Control for Seamless Transition of a Microgrid Between Island and Grid-Connected Modes [J] . Jan Westman, Ramtin Hadidi, Curtiss Fox, Industry Applications, IEEE Transactions on . 2021,第1期

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4. An intelligent battery management system based on fuzzy controller for home microgrid working in grid-connected and island mode [C] . Christopher Lebrón, Fabio Andrade IEEE ANDESCON Conference . 2016

机译：基于模糊控制器的智能电池管理系统，用于网格连接和岛屿模式下的家用微电网
5. Intelligent controllers based on fuzzy systems and neural networks. [D] . Elnashar, Gamal Ahmed. 2000

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An intelligent battery management system based on fuzzy controller for home microgrid working in grid-connected and island mode

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