Design and Development of Hybrid Power Conditioning System for Microgrid Application

2023 IEEE Texas Power and Energy Conference (TPEC) Pub Date : 2023-02-13 DOI:10.1109/TPEC56611.2023.10078721

P. Brijesh, Arya G Lal, P. Anoop, Vishnu Syam, Aby Joseph

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Abstract

Microgrids are having a great research interest because of its suitability and adaptability for wide range of applications from remote rural electrification to power solutions for critical infrastructure. When considering the global presence of microgrid, almost forty percentages belong to remote microgrids. Apart from remote electrification, microgrid can contribute a lot to provide quality power to commercial establishments, educational institutions, residential complexes etc. The dual active bridge (DAB) base bidirectional dc-dc converter is one of the most promising converter topologies for such applications, due to its greater benefits of high-power density, bidirectional power flow, zero-voltage switching, electrical isolation, symmetrical structure etc. This paper tries to elaborate design and development of a hybrid Power Conditioning System realized using dual active bridge-based dc-dc converter and three phase four-wire inverter where the renewable energy source and the battery storage are interfaced by DAB converters and loads are supplied with AC side.

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微电网混合电力调节系统的设计与开发

微电网由于其适用性和适应性广泛应用于从偏远农村电气化到关键基础设施电力解决方案的广泛应用而引起了极大的研究兴趣。考虑到全球微电网的存在，近40%属于远程微电网。除了远程电气化，微电网还可以为商业机构、教育机构、住宅区等提供高质量的电力。双有源桥(DAB)基极双向dc-dc变换器由于具有高功率密度、双向潮流、零电压开关、电隔离、对称结构等优点，是此类应用中最有前途的变换器拓扑之一。本文设计和开发了一种基于双有源桥式dc-dc变换器和三相四线逆变器的混合电力调节系统，其中可再生能源和蓄电池存储由DAB变换器接口，负载由交流侧供电。

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2023 IEEE Texas Power and Energy Conference (TPEC)

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