Sizing and Control of Isolated PV System for Self Sufficient House

2023 IEEE Conference on Power Electronics and Renewable Energy (CPERE) Pub Date : 2023-02-19 DOI:10.1109/CPERE56564.2023.10119610

Mohamed A. Hendy, M. Nayel

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引用次数: 1

Abstract

Delivering energy to remote areas is a challenge due to far distances and lack of fuels so it is more economical to build isolated microgrids as self-sufficient system with renewable energy sources. In this paper, isolated DC microgrid is proposed to feed a single house with the required electrical energy and to generate oxyhydrogen gas HHO that used for cooking. The proposed system consists of PV as a main source of energy, hybrid battery-hydrogen storage system, HHO electrolyzer and DC-DC converters. Firstly, sizing of different components is performed to ensure reliable operation of the proposed system. To ensure stable and smooth operation during large variations in irradiance and load power in addition to the challenging stability issues of constant load behavior, a robust sliding mode controller SMC is used to control the bidirectional converter interfacing battery with the system. The performance of the proposed system is validated through MATLAB simulation. The proposed controllers ensure stable DC voltage with low ripple and is robust with respect to large variations in irradiance and load power.

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自给自足住宅隔离式光伏系统的选型与控制

由于距离遥远和缺乏燃料，向偏远地区输送能源是一项挑战，因此建立孤立的微电网作为具有可再生能源的自给自足系统更为经济。本文提出了隔离直流微电网，为单个房屋提供所需的电能，并产生用于烹饪的氢氧气体HHO。该系统由光伏作为主要能源、混合电池-储氢系统、HHO电解槽和DC-DC转换器组成。首先，对不同部件进行了尺寸确定，以保证系统的可靠运行。为了确保在辐照度和负载功率变化较大的情况下稳定平稳地运行，以及恒定负载行为的挑战性稳定性问题，采用鲁棒滑模控制器SMC来控制连接电池与系统的双向变换器。通过MATLAB仿真验证了该系统的性能。所提出的控制器确保稳定的直流电压，具有低纹波，并且对于辐照度和负载功率的大变化具有鲁棒性。

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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2023 IEEE Conference on Power Electronics and Renewable Energy (CPERE)

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