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Environmental and energy analysis of the renovation of social housing buildings under various climate change scenarios and user profiles

Pablo Hernández-Cruz, Iván Flores, Juan María Hidalgo-Betanzos, Manuela Guedes de Almeida, Aitor Erkoreka

2024Journal of Building Engineering11 citationsDOIOpen Access PDF

Abstract

The renovation of social housing buildings, a priority for the European Union, must be assessed under a Climate Change (CC) context. This work, centred on the user and the environmental impact, analyses the climate resilience of the renovation of the social housing building stock of the Basque Country, located in Northern Spain. In this region, characterised by cold winters and mild summers, CC projections indicate a moderate warming even in the worst-case scenario. The assessment of passive renovation actions indicates that reducing heating demand is key no matter the CC scenario. The reduction achieved in heating demand with deep passive renovations is up to 82.2 % when the worst CC scenario is considered. Indeed, since low-income tenants occupy these buildings, it has been found that global warming would help users achieve indoor standard conditions in a more effective way than with passive renovation actions. Consequently, to improve indoor conditions independently of the CC scenario, active renovation measures must also be considered. Furthermore, the thermal comfort analysis proved that the risk of overheating in this region is negligible, with less than 4 % of the yearly hours above 26 °C. Finally, the Life Cycle Impact Assessment shows that the environmental impact of the renovation is short when compared to the impact of the operational stage. The use of conventional or ecological materials during renovation would save up to 6.5 % of Non-Renewable Primary Energy Consumption and 3.7 % of CO 2 emissions during the life-cycle of the building.

Topics & Concepts

Architectural engineeringClimate changeEnergy analysisEnergy (signal processing)Passive houseEnvironmental scienceEnvironmental resource managementCivil engineeringEngineeringEfficient energy useEcologyMathematicsStatisticsBiologyElectrical engineeringBuilding Energy and Comfort OptimizationEnvironmental Impact and Sustainability