A novel transient infrared imaging method for non-intrusive, low-cost, fast, and accurate air leakage detection in building envelopes
Air leakage through the building envelope in the U.S. accounts for about four quads of energy annually, costing approximately $40 billion per year. However, a high-fidelity and non-intrusive method to detect air leakage has not been demonstrated to date. In this paper, we propose a novel non-intrusi...
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Veröffentlicht in: | Journal of Building Engineering 2024-08, Vol.91 (C), p.109699, Article 109699 |
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Sprache: | eng |
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Zusammenfassung: | Air leakage through the building envelope in the U.S. accounts for about four quads of energy annually, costing approximately $40 billion per year. However, a high-fidelity and non-intrusive method to detect air leakage has not been demonstrated to date. In this paper, we propose a novel non-intrusive and low-cost method called Transient Infrared (IR) Imaging (TIRI) that can rapidly and accurately identify air leakage locations and relative rates on building envelopes. When the interior and exterior temperatures are different, and a small internal pressure pulse is created by HVAC, the temperature at locations with air leakages will change rapidly, while the areas without a leakage do not change. Based on a heat transfer model, we have derived the temperature change as a function of time after the HVAC is turned on. By tracking the temperature change, which depends on leakage rate and size, we have obtained the air leakage map in the case studies. Using an exterior door as an example, we took transient IR images in different seasons and different times of the day, and successfully obtained the leakage map in all the scenarios. Successfully obtained the air leakage map even when the indoor-outdoor air temperature difference is as small as 2 °C. We have also realized a detection speed of 10s and demonstrated that this method also worked for windows, which have mirror-like IR reflections. Our TIRI method will accelerate the improvement of airtightness in buildings, save building energy, and help reduce greenhouse gas emissions.
•Developed a novel and non-intrusive Transient Infrared (IR) Imaging (TIRI) method.•TIRI does not rely on a blower door test.•TIRI can effectively distinguish thermal bridges from air leakages.•TIRI can rapidly and accurately identify air leakage locations and relative rates.•TIRI works even when the indoor-outdoor temperature difference is 2 °C. |
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ISSN: | 2352-7102 2352-7102 |
DOI: | 10.1016/j.jobe.2024.109699 |