Energy management for islanded buildings integrating renewables and diesel generators

M. Hijjo, Felix Felgner, J. Meiers, Georg Frey
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引用次数: 13

Abstract

Ongoing developments in building energy management systems (BEMS) receive a huge consideration by both academia and industry. Specifically, the interest around integrating islanded buildings with renewable energy sources (RES) in addition to the conventionally used diesel generators has grown recently. Obviously, various “Microgrids” are already utilized all over the world for different purposes. In this respect, this work proposes an online Energy Management System (EMS) of an islanded hybrid PV-Battery-Diesel microgrid, while keeping efficient operation conditions of each microgrid component. Indeed, the proposed EMS gives the priority of power supply to RES, however, the battery is essential to assist as a backup power source in case of power outage and to ensure stable operation of the whole system. The Diesel Generator Set (GenSET) is operated in case of low state of charge (SOC) and insufficient generation by RES. A case study of a hospital complex in the Middle East region is chosen to conduct this work. Different operation scenarios with respect to the fuel consumption are considered and the results are listed. Simulation results indicate significant fuel savings in addition to reduction in the total operation time of the diesel GenSET.
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整合可再生能源和柴油发电机的孤岛建筑能源管理
建筑能源管理系统(BEMS)的持续发展受到学术界和工业界的广泛关注。具体来说,除了传统使用的柴油发电机外,最近人们对将岛屿建筑与可再生能源(RES)结合起来的兴趣越来越大。显然,各种各样的“微电网”已经在世界各地被用于不同的目的。为此,本文提出了一种孤岛式光伏-电池-柴油混合微电网的在线能源管理系统(EMS),同时保持各微电网组件的高效运行状态。确实,拟议的EMS将优先供电给可再生能源,然而,电池是必不可少的,在停电时作为备用电源,以确保整个系统稳定运行。柴油发电机组(GenSET)是在低荷电状态(SOC)和res发电不足的情况下运行的。本文选择了中东地区一家医院的案例研究来进行这项工作。考虑了不同工况下的燃油消耗情况,并列出了结果。仿真结果表明,除了减少柴油发电机组的总运行时间外,还可以显著节省燃料。
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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