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Airtightness evaluation of Canadian dwellings and influencing factors based on measured data and predictive models

Maysoun Ismaiel, Maged Gouda, Yong Li, Yuxiang Chen

2022Indoor and Built Environment15 citationsDOIOpen Access PDF

Abstract

The airtightness of buildings has a significant impact on buildings' energy efficiency, maintenance and occupant comfort. The main goal of this study is to provide an evaluation of the air leakage characteristics of dwellings in different regions in Canada. This study evaluated the key influencing factors on airtightness performance based on a large set of measured data (73,450 dwellings located in Canada with 11 measurement parameters for each). Machine learning models based on multivariate regression (MVR) and Random Forest Ensemble (RFE) were developed to predict the air leakage value. The RFE model, which shows better results than MVR, was used to evaluate the effect of the ageing of buildings. Results showed that the maximum increase in air leakage occurs during the first year after construction - approximately 25%, and then 3.7% in the second year, after which the increase rate becomes insignificant and relatively constant - approximately 0.3% per year. The findings from this study can provide significant information for building designs, building performance simulations and strengthening standards and guidelines policies on indoor environmental quality.

Topics & Concepts

Environmental scienceIndoor air qualityAir changeEngineeringRegression analysisLeakage (economics)Civil engineeringMeteorologyStatisticsEnvironmental engineeringGeographyMathematicsMechanical engineeringVentilation (architecture)MacroeconomicsEconomicsBuilding Energy and Comfort OptimizationNoise Effects and ManagementFacilities and Workplace Management
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