Publication Type
Journal Article
Version
publishedVersion
Publication Date
2-2019
Abstract
Buildings are responsible for 30–40% of the anthropogenic greenhouse gas emissions and energy consumption worldwide. Thus, reducing the overall energy use and associated emissions in buildings is crucial for meeting sustainability goals for the future. In recent years, smart energy meters have been deployed to enable monitoring of energy use data with hourly or sub-hourly temporal resolution. The concurrent rise of information technologies and data analytics enabled the development of novel applications such as customer segmentation, load profiling, demand response, energy forecasting and anomaly detection. In this paper, we address load profiling and benchmarking, i.e., determining peer groups for buildings. Traditionally, static characteristics, e.g., primary space use (PSU) together with the annual energy-use-intensity (EUI) have been used to compare the performance of buildings. Data-driven benchmarking approaches have begun to also consider the shape of the load profiles as a means for comparison. In this work, we identify three fundamental load shape profiles that characterize the temporal energy use in any building. We obtain this result by collecting a dataset of unprecedented variety in size (3829 buildings) and primary use (75 programs), and applying a rigorous clustering analysis followed by entropy calculation for each building. The existence of fundamental load shape profiles challenges the man-made, artificial classification of buildings. We demonstrate in a benchmarking application that the resulting data-driven groups are more homogeneous, and therefore more suitable for comparisons between buildings. Our findings have potential implications for portfolio management, building and urban energy simulations, demand response and renewable energy integration in buildings.
Keywords
Building energy, Load profile, Energy benchmarking, Unsupervised learning, Data analytic, Visual analytic
Discipline
Energy Policy | Engineering
Research Areas
Integrative Research Areas
Publication
Applied Energy
Volume
236
First Page
1280
Last Page
1295
ISSN
0306-2619
Identifier
10.1016/j.apenergy.2018.12.025
Publisher
Elsevier
Citation
PARK, June Young; YANG, Xiya; MILLER, Clayton; ARJUNAN, Pandarasamy; and NAGY, Zoltan.
Apples or oranges? Identification of fundamental load shape profiles for benchmarking buildings using a large and diverse dataset. (2019). Applied Energy. 236, 1280-1295.
Available at: https://ink.library.smu.edu.sg/cis_research/571
Creative Commons License
This work is licensed under a Creative Commons Attribution-NonCommercial-No Derivative Works 4.0 International License.
Additional URL
https://doi.org/10.1016/j.apenergy.2018.12.025