Abstract
In cold regions, the reduction in envelope thermal transmittance is often the dominant parameter in ensuring thermal comfort in buildings. However, countries in warmer climates have also adopted this same strategy, often neglecting other parameters that are more influential in their respective climate regions that can achieve thermal comfort. This study focuses on passive building strategies to ensure a building’s thermal comfort conditions in Mediterranean climates in the winter. This monitoring study compares two dwellings during the winter in Barcelona, Spain, in order to analyze the impact of not only the envelope’s thermal properties on indoor temperature, but also the role of other factors such as outdoor temperature and solar gains. The dwellings were built in different decades, each following distinct building technical codes, diverse construction techniques, and building materials. The methodology used in this study is based on thermal measurements, meteorological data, and spreadsheet calculations. Comparing these results with the recent updates in Spain’s technical code and other studies, the investigation demonstrates that to achieve a suitable indoor thermal temperature in a passive way, especially in Mediterranean climates, incorporating other factors such as the combination of thermal inertia and solar gains can be more effective than a strategy mainly focused on reducing thermal transmittance. This analysis demonstrates that a building’s thermal performance does not mainly depend on envelope thermal transmittance, but rather a complex system involving a set of variables such as thermal inertia as well as solar gains, based on parameters such as building orientation and urban context.
Highlights
In order to reduce the effects of climate change and global warming caused by energy consumption, building regulations around the world have focused on strategies to reduce energy demand [1]
This study addresses the use of passive building strategies on non-heated spaces in Mediterranean climates in the winter season
The investigation analyzed the impact of thermal transmittance, thermal mass, outdoor temperature, and solar gains on a building’s thermal conditions
Summary
In order to reduce the effects of climate change and global warming caused by energy consumption, building regulations around the world have focused on strategies to reduce energy demand [1]. When building energy performance is discussed, the thermal insulation approach is often first cited, especially in cold regions [2] where the building’s losses play a relevant role on heating demand. Some research has concentrated on determining the optimal thermal insulation thickness in different climates [5,6]. Other studies have pointed out the importance of insulate materials on economical and energy savings [7,8]. The importance of this strategy has been highlighted in the energy optimization of traditional buildings [9]. Due to the fact that the study of building energy performance started in cold regions, and is still mainly concentrated there, building energy regulations in several countries with different climates have adopted the same parameters established for these colder climates [10,11]
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