Data analytics applied to the electricity consumption of office buildings to reveal building operational characteristics

IF 2.1 Q2 CONSTRUCTION & BUILDING TECHNOLOGY Advances in Building Energy Research Pub Date : 2020-02-20 DOI:10.1080/17512549.2020.1730239
Mohammad A. Hossain, Arash Khalilnejad, Rojiar Haddadian, Ethan M Pickering, R. French, A. Abramson
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引用次数: 5

Abstract

ABSTRACT Rigorous statistical analysis of whole building, 15-minute interval, time series electricity data enables remote insights into buildings’ operational characteristics. We developed select building markers and applied them to six commercial office buildings located in three different climate zones for comparison. The building markers reveal information about daily operational patterns, scheduling, and the ratio of base to peak load. Time series analysis, clustering, anomaly detection, diffusion index-based forecasting, first-order energy differential, data visualization and data mining techniques were used for marker development. The daily operational pattern marker identifies weekday and weekend energy consumption patterns and was used here to quantify opportunities for alternative weekend energy scheduling to reduce energy consumption. The scheduling marker recognizes the turn-on and turn-off times for HVAC and other scheduled equipment. Here, we quantified an alternative HVAC schedule can reduce on average 2.7% energy consumption in the office buildings. The base to peak load ratio marker identified that the selected office buildings could reduce their baseload by using more aggressive night and weekend temperature setbacks. Ultimately, these building marker functions may be employed on any whole building electricity datasets to gain insights to building operation and characteristics, enabling improved identification of potential energy savings measures.
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将数据分析应用于办公楼的用电量,以揭示建筑物的运行特征
对整个建筑进行严格的统计分析,间隔15分钟,时间序列电力数据可以远程洞察建筑物的运行特征。我们开发了选定的建筑标记,并将其应用于位于三个不同气候带的六座商业办公楼进行比较。建筑物标记显示有关日常操作模式、调度以及基本负载与峰值负载的比率的信息。时间序列分析、聚类、异常检测、基于扩散指数的预测、一阶能量微分、数据可视化和数据挖掘技术用于标记开发。日常操作模式标记确定工作日和周末的能源消耗模式,并在这里用于量化周末能源调度的机会,以减少能源消耗。调度标记识别HVAC和其他调度设备的开启和关闭时间。在这里,我们量化了一种替代的暖通空调计划可以减少办公大楼平均2.7%的能源消耗。基础与峰值负荷比标记表明,选定的办公楼可以通过使用更积极的夜间和周末温度降低其基本负荷。最终,这些建筑标记功能可以应用于任何整个建筑的电力数据集,以深入了解建筑的运行和特征,从而更好地识别潜在的节能措施。
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来源期刊
Advances in Building Energy Research
Advances in Building Energy Research CONSTRUCTION & BUILDING TECHNOLOGY-
CiteScore
4.80
自引率
5.00%
发文量
11
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