A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Quantitative internal infrared thermography for determining in-situ thermal behaviour of façades
HighlightsA quantitative internal IRT method for determining in-situ U-values is proposed.It can be used for both existing and new building envelopes.The deviation (1–4%) was found to be smaller than that of alternative IRT methods.The execution time was shorter than that of other methods for determining U-value.
AbstractThe thermal behaviour of a building is often underestimated or neglected during its construction and operation stages. In recent years, the heat flux meter (HFM) method has been commonly used to determine the U-value, a key parameter for assessing the thermal quality of the building envelope in steady-state conditions. However, this non-invasive test takes at least 72h to execute, the accuracy is 14–28%, and it is not reliable for non-homogeneous building elements. An alternative technique is based on infrared thermography (IRT). Although it is generally used for qualitative analysis, quantitative internal IRT methods may also be adopted for in-situ measurement of the U-value. This research presents a method for determining in-situ U-values using quantitative internal IRT with a deviation of 1–2% for single-leaf walls and 3–4% for multi-leaf walls. It takes 2–3h and can be used to provide information about the building envelope for the future refurbishment of existing buildings or to check the thermal behaviour of new building façades according to their design parameters.
Quantitative internal infrared thermography for determining in-situ thermal behaviour of façades
HighlightsA quantitative internal IRT method for determining in-situ U-values is proposed.It can be used for both existing and new building envelopes.The deviation (1–4%) was found to be smaller than that of alternative IRT methods.The execution time was shorter than that of other methods for determining U-value.
AbstractThe thermal behaviour of a building is often underestimated or neglected during its construction and operation stages. In recent years, the heat flux meter (HFM) method has been commonly used to determine the U-value, a key parameter for assessing the thermal quality of the building envelope in steady-state conditions. However, this non-invasive test takes at least 72h to execute, the accuracy is 14–28%, and it is not reliable for non-homogeneous building elements. An alternative technique is based on infrared thermography (IRT). Although it is generally used for qualitative analysis, quantitative internal IRT methods may also be adopted for in-situ measurement of the U-value. This research presents a method for determining in-situ U-values using quantitative internal IRT with a deviation of 1–2% for single-leaf walls and 3–4% for multi-leaf walls. It takes 2–3h and can be used to provide information about the building envelope for the future refurbishment of existing buildings or to check the thermal behaviour of new building façades according to their design parameters.
Quantitative internal infrared thermography for determining in-situ thermal behaviour of façades
Tejedor, Blanca (author) / Casals, Miquel (author) / Gangolells, Marta (author) / Roca, Xavier (author)
Energy and Buildings ; 151 ; 187-197
2017-06-16
11 pages
Article (Journal)
Electronic Resource
English
Quantitative internal infrared thermography for determining in-situ thermal behaviour of façades
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