一种新的太阳能光伏设备柔性AC/DC微电网能源管理,用于有效的住宅配电

IF 2.1 Q3 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE IEEE Canadian Journal of Electrical and Computer Engineering Pub Date : 2022-09-07 DOI:10.1109/ICJECE.2022.3189687
Abarna Rajkumar;Sivasankar Gangatharan
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引用次数: 5

摘要

配电系统的主要概念之一是频繁的电力转换。转换器的转换损耗和谐波产生日益严重,污染了电网。在本文中,在微电网(MG)框架中提出了一种有效的能源管理方案,通过考虑储能和可再生能源的整合来促进能源使用的减少。可再生能源系统与电池储能系统的集成有助于促进能源发展,并将成本降至最低。这项工作的目的是构建一个灵活的交流/直流MG,分别向交流和直流负载供电,以减少多次转换损耗,并设计一个混合双向转换器,有效地管理交流和直流电网之间的功率共享。与传统方案相比,采用MG方案的节能可能性预计为30.87%,与传统的直接并网太阳能光伏(PV)方案相比,功率损失可减少59.8%。转换损失只有在不可避免的情况下才会发生。通过自动集中式MG控制器管理能量转换,并相应地调度负载,从而有效利用可再生能源,并调度需求优化。
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A Novel Solar PV Equipped Flexible AC/DC Microgrid Based Energy Management for Effective Residential Power Distribution
One of the major perceptions of distribution system is frequent power conversion. Conversion losses and the generation of harmonics by the converter have been kneeling day by day and polluting the power network. In this article, an effective energy management scheme has been proposed in the microgrid (MG) framework to promote diminishing energy usage by considering both energy storage and renewable energy sources integration. Integration of renewable energy systems along with battery energy storage systems encourages in promoting energy and also minimizes the cost. The objective of this work is to construct a flexible ac/dc MG to feed ac and dc loads separately in order to reduce multiple conversion losses and to design a hybrid bidirectional converter to manage power sharing between ac and dc grids effectively. Energy-saving possibility of 30.87% is expected by incorporating the MG scheme compared to the conventional scheme and power loss can be reduced by 59.8% compared to the conventional direct grid-tie solar photovoltaic (PV) scheme. Conversion losses happen only during unavoidable circumstances. Energy conversion is managed through an automatic centralized MG controller and the loads are scheduled accordingly, and thereby, utilizing the renewable energy is effectively utilized and the demand optimization is scheduled.
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Table of Contents Front Cover IEEE Canadian Journal of Electrical and Computer Engineering Green Electricity Share Enhancement Through Rooftop Solar PV System on Institutional Sheds Enhanced Validation of Intelligent Control Algorithms in AC Microgrids
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