The E.U. aims to achieve climate neutrality by 2050. This article aims to fill the gap in the selection of solutions to improve living conditions in territorial assets (SDG n.11) to achieve the expected energy performance (SDG n.7) and disseminate the adoption of new approaches and measures for sustainable design (SDG n.13). These objectives were met through the application of a reverse engineering process to the Ape Tau kindergarten in L'Aquila, Coppito area, after the 2009 earthquake. The building's design solutions were investigated according to quantitative levels suggested by the holistic approach of the Active House protocol, which provides the methodology to verify the building's performance according to comfort, energy and environmental criteria. The results highlight the high performance of the building constructed with multilayer dry technology and the method's effectiveness based on process-oriented analysis to user, environment and territory. The article proposes an innovative paradigm for building requalification replicable in numerous contexts and different climatic conditions

ACTIVE HOUSE PROTOCOL APPLICATION IN MEDITERRANEAN CLIMATE An energy-efficient kindergarten in Coppito

Rotilio M
;
2022

Abstract

The E.U. aims to achieve climate neutrality by 2050. This article aims to fill the gap in the selection of solutions to improve living conditions in territorial assets (SDG n.11) to achieve the expected energy performance (SDG n.7) and disseminate the adoption of new approaches and measures for sustainable design (SDG n.13). These objectives were met through the application of a reverse engineering process to the Ape Tau kindergarten in L'Aquila, Coppito area, after the 2009 earthquake. The building's design solutions were investigated according to quantitative levels suggested by the holistic approach of the Active House protocol, which provides the methodology to verify the building's performance according to comfort, energy and environmental criteria. The results highlight the high performance of the building constructed with multilayer dry technology and the method's effectiveness based on process-oriented analysis to user, environment and territory. The article proposes an innovative paradigm for building requalification replicable in numerous contexts and different climatic conditions
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11697/193619
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