Fuzzy Approach for Managing Renewable Energy Flows for DC-Microgrid with Composite PV-WT Generators and Energy Storage System

Energies Pub Date : 2024-01-13 DOI:10.3390/en17020402

M. Versaci, Fabio La Foresta

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Abstract

Recently, the implementation of software/hardware systems based on advanced artificial intelligence techniques for continuous monitoring of the electrical parameters of intelligent networks aimed at managing and controlling energy consumption has been of great interest. The contribution of this paper, starting from a recently studied DC-MG, fits into this context by proposing an intuitionistic fuzzy Takagi–Sugeno approach optimized for the energy management of isolated direct current microgrid systems consisting of a photovoltaic and a wind source. Furthermore, a lead-acid battery guarantees the stability of the DC bus while a hydrogen cell ensures the reliability of the system by avoiding blackout conditions and increasing interaction with the loads. The fuzzy rule bank, initially built using the expert’s knowledge, is optimized with the aforementioned procedure, maximizing external energy and minimizing consumption. The complete scheme, modeled using MatLab/Simulink, highlighted performance comparable to fuzzy Takagi–Sugeno systems optimized using a hybrid approach based on particle swarm optimization (to structure the antecedents of the rules) and minimum batch squares (to optimize the output).

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用模糊方法管理带光伏-风电复合发电机和储能系统的直流微电网的可再生能源流量

最近，基于先进人工智能技术的软件/硬件系统的实施引起了人们的极大兴趣，该系统用于持续监测智能网络的电气参数，旨在管理和控制能源消耗。本文从最近研究的直流微电网出发，提出了一种直觉模糊高木-菅野（Takagi-Sugeno）方法，优化了由光伏和风力资源组成的隔离直流微电网系统的能源管理，从而与这一背景相契合。此外，铅酸电池保证了直流母线的稳定性，而氢电池则通过避免停电条件和增加与负载的互动来确保系统的可靠性。最初利用专家知识建立的模糊规则库通过上述程序进行优化，使外部能量最大化，消耗最小化。使用 MatLab/Simulink 建模的完整方案，其性能可与使用基于粒子群优化（构建规则前因）和最小批次平方（优化输出）的混合方法优化的模糊高木-菅野系统相媲美。

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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Energies

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