Ingurune eraikiaren ebaluazio eta kudeaketa modeloak

Ekodiseinua materialetan, eraikuntza-sistemetan eta ingurune eraikian

Assessment on the influence of the façade location and orientation in the thermal behavior of double skin building envelopes with perforated metal sheets, through Design Builder; A case study in Spain

Egileak:
Jesús María Blanco, Aiert Buruaga, Jesús Cuadrado, Artura Zapico
Urtea:
2019
Aldizkaria:
Building and Environment
Kuartila:
Q1
Liburukia:
163
Hasierako orria - Amaierako orria:
1 - 7
ISBN/ISSN:
0360-1323
DOI:
https://doi.org/10.1016/j.buildenv.2019.106325
Deskribapena:

<b>ABSTRACT</b></br>

Double-skin perforated sheet façades, enclosures consisting of perforated screens, air chambers and glass/wall sheets, are features of modern building design that are winning greater acceptance. A detailed analysis of their suitability across Europe is first performed here. A reference building both with and without the protective double-skin perforated sheet envelope is subjected to a comparative test of solar energy gains with regard to the environment. Additionally, the results of a preliminary survey are presented on the visual perceptions of different patterns of perforated metal sheets. Then the behaviour of these configurations is addressed, through a complete “Energyplus® model” (design builder). A test campaign on a reference perforated screen mounted on a service building of reference was fully monitored over one year, supported by thermographic data recorded for additional validation purposes during the same period. The new parametric energy assessment takes additional variables into account, such as orientation and location of the façade, demonstrating that the real performance for such enclosures greatly depends on them. Accordingly, the influence of different combinations of perforated screens on cooling, heating and lighting loads demonstrates the suitability of a previously optimized configuration in terms of relative energy savings.</br>

<b>ACKNOWLEDGEMENTS</b></br>

The authors are deeply grateful to the Basque Government, through projects IT781-13 and IT1314-19, and to all those involved in the different stages for their guidance and invaluable help at all times in the arduous process of model validation. This research did not receive any specific grant from funding agencies in the public, commercial, or not-for-profit sectors.

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