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Assessing thermal performance: An experimental study on U-value variability in building fabric elements

H Alkhatib, Philippe Lemarchand

2024Results in Engineering12 citationsDOIOpen Access PDF

Abstract

• Energy audits and performance checks are key for energy savings in buildings. • Estimating a building's U-value is essential for evaluating thermal performance. • In situ U-value measurement using heat flow meters offers valuable data. • Study provides insights into U-value assessment and its challenges. • Study reveals significant differences in U-values for similar building components. In order to achieve energy savings in existing buildings, there is an increasing need for energy audits and performance checks. In this regard, estimating a building's U-value is crucial, and there are a variety of methods available for achieving this. Heat flow meters can be used to measure U-value in situ. This research reports on an experimental campaign that evaluated the insulation and performance of the fabric elements of a building located in Dublin, Ireland. The experimental study conducted on the "Block F" building provided insights into the building's thermal performance by measuring the U-value of various windows and walls across different locations and floors. The average heat loss coefficient for windows was approximately 1.74 W/(m²K) before data cleaning and 1.99 W/(m²K) after cleaning, while walls had an average of 0.90 W/(m²K) before cleaning and 1.07 W/(m²K) after cleaning. The findings revealed that similar types of windows and wall components exhibited significantly different U-values. The study identified several challenges contributing to the variability in U-value readings within the same building.

Topics & Concepts

Value (mathematics)ThermalEnvironmental scienceMathematicsStatisticsMeteorologyGeographyBuilding Energy and Comfort OptimizationHygrothermal properties of building materialsUrban Heat Island Mitigation