Architectural and energy refurbishment of the headquarter of the University of Teramo

The recent seismic events, which distressed the population of the Central Italy, have caused the incompliance with national safety standards of several historical buildings. In particular, the headquarter of the University of Teramo revealed some structural damages which make necessary to operate a...

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Bibliographic Details
Published in:Energy procedia 2017-09, Vol.126, p.565-572
Main Authors: Manni, Mattia, Tecce, Raffaele, Cavalaglio, Gianluca, Coccia, Valentina, Nicolini, Andrea, Petrozzi, Alessandro
Format: Article
Language:English
Subjects:
Energy refurbishment
historical architecture
post-seismic reconstruction
sustainability
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Summary:The recent seismic events, which distressed the population of the Central Italy, have caused the incompliance with national safety standards of several historical buildings. In particular, the headquarter of the University of Teramo revealed some structural damages which make necessary to operate a restoration of the buildings. It represents a rare opportunity for investigating possible applications of a cluster of technologies and approaches largely recognized as efficient and high-performing to such particular buildings in order to achieve an upgrading in terms of energy efficiency. The proposal includes the improvement of the exploitation of renewable energy sources through adequate systems, which do not modify the visual perception of the pavilions. In that regards, the required electricity could be produced by a PV roofing installed on the parking area, while a biomass boiler and an absorption chiller could allow supplying the thermal and cooling needs. Furthermore, the rain water recovery system permits to reduce the exploitation of potable water for uses which do not require a high quality, such as irrigation. On the other hand, the envelope energy efficiency could be enhanced by applying passive strategies for reducing the heat losses (winter conditions) and gains (summer conditions) through façades and roof. The results confirmed the reliability of those interventions and the consequent advantages from an economical and energy point of view.
ISSN:1876-6102
1876-6102
DOI:10.1016/j.egypro.2017.08.290