Renovating Post-First-Energy-Regulation Housing: Achieving Nearly Zero-Energy buildings under typical and extreme warm conditions in a temperate European city

Renovating Post-First-Energy-Regulation Housing: Achieving Nearly Zero-Energy buildings under typical and extreme warm conditions in a temperate European city

•Post-first-energy-regulation housing could have a potential impact on NZEB renovation.•National official weather files should be updated to reflect climate change effects.•Active cooling systems are needed in Cfb climates in Spain to face climate change.•Low-temperature radiators are the heating em...

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Bibliographic Details
Published in:Energy and buildings Vol. 325; p. 114936
Main Authors: Beneito, Lourdes, Torres-Ramo, Joaquín, Sánchez-Ostiz, Ana
Format: Journal Article
Language:English
Published: Elsevier B.V 15-12-2024
Subjects:
Climate change
Decarbonisation
Energy transition
HVAC simulation
NZEB renovation strategies
Residential building stock
Temperate climate
Climate change
Decarbonisation
HVAC simulation
Energy transition
Residential building stock
NZEB renovation strategies
Temperate climate
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Summary:•Post-first-energy-regulation housing could have a potential impact on NZEB renovation.•National official weather files should be updated to reflect climate change effects.•Active cooling systems are needed in Cfb climates in Spain to face climate change.•Low-temperature radiators are the heating emitters with the lowest annual consumption.•The radiant floor is the emitter with the highest consumption for heating. Decarbonising the built environment is essential for achieving the 2050 European objectives. Multi-family buildings comprise nearly half of Europe’s building stock, yet there is no regulation mandating all housing renovations to be Nearly Zero-Energy Buildings (NZEBs). This paper highlights the role of NZEB renovation for residential buildings constructed between the first energy regulations, after the first oil crisis, and the EPBD 2002 implementation (post-first-energy-regulation housing), as a pivotal factor towards energy transition. In Spain, this period (1980–2006) encompasses approximately 45% of existing dwellings. A case study was conducted in a city with a Cfb temperate climate, focusing on the most representative residential typology of the target period: the linear block. The study evaluates its current state and defines potential measures to meet NZEB requirements, achieving zero consumption when renovation of thermal envelope is combined with heat recovery systems, heat pumps, and PV panels. This research is based on energy simulations for two climate scenarios: the typical meteorological year (TMY, official series 1970–2000) and the most extreme warm year (EWY, 2022) in Spain. Results indicate active cooling systems are necessary for NZEB renovations in Spanish Cfb climates. Furthermore, low-temperature radiators significantly reduce heating consumption, while splits are the most suitable cooling systems. This study shows Spain is not adequately preparing its housing stock to face climate change, as most typical renovation works are based on official weather files that need updating to reflect harsher summer conditions. Finally, the study aims to encourage new policies and enhance existing regulations to address rising temperatures and heatwaves.
ISSN:0378-7788
DOI:10.1016/j.enbuild.2024.114936