Applied Sciences (Sep 2024)
Experimental Analysis of Thermal Performance and Evaluation of Vibration and Utility Function for the Readaptation of a Residential Building in an Experimental Housing Complex
Abstract
The construction sector is a significant contributor to energy consumption and emissions. With the steady increase in the cost of energy carriers and the costs of energy production, the cost for consumers is also increasing. Therefore, the search for solutions capable of reducing energy consumption by increasing the energy efficiency of building structures, in particular the use of prefabricated timber-frame technology, is ongoing. Recent energy supply uncertainties and high costs necessitate the pursuit of green solutions. Timber construction, especially prefabricated timber-frame technology, holds promise due to its renewability and energy efficiency. However, housing estates built using this technology often lack service infrastructure, like shops, crèches, kindergartens, and offices, affecting resident comfort. This study proposes a methodology to select the optimal utility function for a residential building in such an estate, thus enhancing living conditions. The building’s potential new functions—a shop, nursery, or office—were evaluated based on economic criteria, thermal comfort, building airtightness, energy efficiency, and vibration comfort. The analysis indicates that converting the building into a shop requires the least capital investment, making it the most economically beneficial option.
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