Physics-Informed Hybrid Modeling Methodology for Building Infiltration: Article No. 114580

Liang Zhang, Zoe Kaufman, Matt Leach

Research output: Contribution to journalArticlepeer-review

Abstract

Infiltration is responsible for one-third to one-half of the space conditioning load of a typical residential home, but the modeling of infiltration for building energy modeling is either represented by over-simplified equations or dependent on over-generalized rules of thumb. This paper develops a physics-informed data-driven methodology for modeling infiltration using building-specific empirical measurements. The developed hybrid methodology combines machine-learning categorization and grey-box sub-modeling to improve the accuracy and generalization of commonly used grey-box infiltration models. The developed methodology excels at predicting infiltration by improving the ability to predict infiltration under unseen environmental conditions using machine learning algorithms with physical significance. In a case study conducted using the iUnit, a modular studio apartment experimental test facility located at the National Renewable Energy Laboratory, we use empirical airtightness measurements to fit an infiltration model using the developed methodology. We find that the developed methodology can improve the overall model accuracy by 43% and improve extrapolation by 38%, compared with the model based on the common grey-box infiltration equation. We also notice that the selected features can improve the performance of a pure machine-learning model, indicating that our methodology identifies the features with the most physical significance to infiltration modeling.
Original languageAmerican English
Number of pages10
JournalEnergy and Buildings
Volume320
DOIs
StatePublished - 2024

NREL Publication Number

  • NREL/JA-5500-86878

Keywords

  • airtightness measurements
  • building infiltration
  • grey-box modeling
  • hybrid modeling
  • machine learning

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