Development of an Optimization Model for an Integrated Renewable-Storage Energy System in a Mixed-Use Building

A. D. Del Rosario, A. Ubando, A. Culaba
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Abstract

The rise of mixed-use buildings contributes to the sustainable development of cities but are still met with challenges in energy management due to the lack of energy efficiency and sustainability guidelines. The use of integrated renewable-storage energy systems is a more beneficial solution to this problem over individual solutions; however, most design studies in the literature only focus on single-type of buildings or solutions. Thus, this study aims to develop an optimization model to determine the design capacities of an integrated energy system for mixed-use buildings. The objective is to minimize net present costs, subject to sizing, energy balances, and operational constraints. The case study considered a mixed-use building in a tropical area, with solar photovoltaic system as the renewable energy source and Lithium-ion battery as the energy storage system technology. The model was developed in HOMER Grid software, and economic metrics were used to evaluate and compare the proposed system to the following design cases: business-as-usual, stand-alone renewable source, and standalone energy storage. The results show that the integrated system has the lowest equivalent annual costs despite its high capital costs. Still, it has the most attractive economic case based on the evaluation metrics compared to other design cases.
混合用途建筑可再生-储能系统优化模型的建立
混合用途建筑的兴起有助于城市的可持续发展,但由于缺乏能源效率和可持续性指导方针,在能源管理方面仍然面临挑战。使用集成的可再生能源存储系统比单独的解决方案更有利于解决这个问题;然而,文献中的大多数设计研究只关注单一类型的建筑或解决方案。因此,本研究旨在建立一个优化模型,以确定混合用途建筑综合能源系统的设计能力。目标是在考虑规模、能源平衡和操作限制的情况下,最大限度地降低当前净成本。本案例研究考虑了一个热带地区的混合用途建筑,太阳能光伏系统作为可再生能源,锂离子电池作为储能系统技术。该模型是在HOMER Grid软件中开发的,并使用经济指标来评估和比较拟议的系统与以下设计案例:常规业务,独立可再生能源和独立储能。结果表明,尽管综合系统的资本成本较高,但其等效年成本最低。尽管如此,与其他设计案例相比,基于评估指标,它具有最具吸引力的经济案例。
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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