A hybrid building thermal modeling approach for predicting temperatures in typical, detached, two-story houses

Borui Cui, Cheng Fan, Jeffrey Munk, Ning Mao, Fu Xiao, Jin Dong, Teja Kuruganti

Research output: Contribution to journalArticlepeer-review

76 Scopus citations

Abstract

Within the residential building sector, the air-conditioning (AC) load is the main target for peak load shifting and reduction since it is the largest contributor to peak demand. By leveraging its power flexibility, residential AC is a good candidate to provide building demand response and peak load shifting. For realization of accurate and reliable control of AC loads, a building thermal model, which characterizes the properties of a building's envelope and its thermal mass, is an essential component for accurate indoor temperature or cooling/heating demand prediction. Building thermal models include two types: “Forward” and “Data-Driven”. Due to time-saving and cost-effective characteristics, different data-driven models have been developed in a number of research studies. However, few developed models can predict temperatures in respective zones of a multiple-zone building with an open air path between zones e.g., an open stairwell connecting two floors of a home. In this research, a novel hybrid modeling approach is proposed to predict the average indoor air temperatures of both the upstairs and downstairs. This “hybrid” solution integrates both gray-box, i.e. RC model and black-box models. A developed RC model is used to predict the building mean temperature, and black-box model, in which the supervised machine learning algorithms are leveraged, is used to predict the temperature difference between the downstairs and upstairs. Compared with the measured data from a real house, the results obtained have acceptable/satisfactory accuracy. The method proposed in this study integrates the advantages of black-box and gray-box modeling. It can be used as a reliable alternative to predict the average temperatures in respective floors of typical detached two-story houses.

Original languageEnglish
Pages (from-to)101-116
Number of pages16
JournalApplied Energy
Volume236
DOIs
StatePublished - Feb 15 2019

Funding

The research presented in this paper was funded by the United States Department of Energy , Energy Efficiency and Renewable Energy Office , Building Technology Office under the grid modernization program. This research was also supported by Natural Science Foundation of Guangdong Province , China (No. 2018A030310543 ).

FundersFunder number
Building Technology Office
United States Department of Energy
Office of Energy Efficiency and Renewable Energy
Natural Science Foundation of Guangdong Province2018A030310543

    Keywords

    • Building demand management
    • Data-driven model
    • Particle swarm optimization
    • Supervised machine learning

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