A semantic ontology for representing and quantifying energy flexibility of buildings

IF 13 Q1 ENERGY & FUELS
Han Li, Tianzhen Hong
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引用次数: 15

Abstract

Energy flexibility of buildings can be an essential resource for a sustainable and reliable power grid with the growing variable renewable energy shares and the trend to electrify and decarbonize buildings. Traditional demand-side management technologies, advanced building controls, and emerging distributed energy resources (including electric vehicle, energy storage, and on-site power generation) enable the transition of the building stock to grid-interactive efficient buildings (GEBs) that operate efficiently to meet service needs and are responsive to grid pricing or carbon signals to achieve energy and carbon neutrality. Although energy flexibility has received growing attention from industry and the research community, there remains a lack of common ground for energy flexibility terminologies, characterization, and quantification methods. This paper presents a semantic ontology—EFOnt (Energy Flexibility Ontology)—that extends existing terminologies, ontologies, and schemas for building energy flexibility applications. EFOnt aims to serve as a standardized tool for knowledge co-development and streamlining energy flexibility related applications. We demonstrate potential use cases of EFOnt via two examples: (1) energy flexibility analytics with measured data from a residential smart thermostat dataset and a commercial building, and (2) modeling and simulation to evaluate energy flexibility of buildings. The compatibility of EFOnt with existing ontologies and the outlook of EFOnt's role in the building energy data tool ecosystem are discussed.

一种用于表示和量化建筑物能量灵活性的语义本体
随着可再生能源份额的不断增长以及建筑电气化和脱碳的趋势,建筑的能源灵活性可以成为可持续和可靠电网的重要资源。传统的需求侧管理技术、先进的建筑控制和新兴的分布式能源(包括电动汽车、能源存储和现场发电)使建筑存量能够向电网互动高效建筑(geb)过渡,这些建筑能够有效地满足服务需求,并对电网定价或碳信号做出反应,以实现能源和碳中和。尽管能源灵活性已经受到工业界和研究界越来越多的关注,但能源灵活性的术语、表征和量化方法仍然缺乏共同点。本文提出了一个语义本体——efont(能源灵活性本体),它扩展了建筑能源灵活性应用的现有术语、本体和模式。EFOnt旨在作为知识共同开发和简化能源灵活性相关应用的标准化工具。我们通过两个例子展示了EFOnt的潜在用例:(1)使用来自住宅智能恒温器数据集和商业建筑的测量数据进行能源灵活性分析,以及(2)建模和仿真以评估建筑物的能源灵活性。讨论了EFOnt与现有本体的兼容性以及EFOnt在建筑能源数据工具生态系统中的作用。
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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来源期刊
Advances in Applied Energy
Advances in Applied Energy Energy-General Energy
CiteScore
23.90
自引率
0.00%
发文量
36
审稿时长
21 days
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