利用微电网提高建筑物的能源效率

Mario Primorac, Mario Šipoš, Z. Klaić
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引用次数: 0

摘要

现代社会对电力的需求日益增长。为了保护环境,未来的能源需求必须以更环保的技术来满足,例如可再生能源。由于其广泛的可用性,太阳辐射几十年来一直通过光伏系统(PV)用于住宅,教育和商业建筑发电。然而,工业化国家电力系统中分布式发电(和可再生能源)的增长带来了新的挑战。随机可再生能源发电导致电力生产和消费之间的不平衡,因此智能电网和微电网可能是解决方案。在本文中,我们研究了通过使用微电网提高奥西耶克电气工程学院建筑的能源效率。为此,我们比较了该建筑物的总用电量和该建筑物上10千瓦时光伏发电厂的发电量。建筑能源效率的提高最大限度地节省了建筑总用电量的10%。
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IMPROVING ENERGY EFFICIENCY IN BUILDINGS USING MICROGRIDS
Modern society has a growing need for the electricity. To protect the environment, future energy demand must be met with more environmentally friendly technologies, such as renewable energy sources. Because of its vast availability, solar radiation has been used for decades to generate electricity through photovoltaic systems (PV) for residential, educational, and commercial buildings. However, the growth of distributed generation (and renewable energy sources) across power systems in industrialized countries has created new challenges. Random renewable generation causes an imbalance between electricity production and consumption, so smart grids and microgrids may be solutions. In this article, we investigate improving the energy efficiency in the Faculty of Electrical Engineering building in Osijek by using a microgrid. To do so, we compared the total electricity consumption of the building and the production of a 10 kWp photovoltaic power plant on that building. The improvement in energy efficiency of the building produced a maximum savings of up to 10% of the building’s total electricity consumption.
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24 weeks
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