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dc.contributor.authorPesic, Nikola
dc.contributor.authorRoset Calzada, Jaime
dc.contributor.authorMuros Alcojor, Adrián
dc.contributor.otherUniversitat Politècnica de Catalunya. Departament de Física
dc.contributor.otherUniversitat Politècnica de Catalunya. Departament de Tecnologia de l'Arquitectura
dc.coverage.spatialeast=-0.3762881000000107; north=39.4699075; name=Pl. de l'Ajuntament - Font, 46002 Valencia, Espanya
dc.coverage.spatialeast=2.1734034999999494; north=41.38506389999999; name=Carrer de la Canuda, 47, 08002 Barcelona, Espanya
dc.coverage.spatialeast=5.369779999999992; north=43.296482; name=1 Rue de la Prison, 13002 Marseille, França
dc.coverage.spatialeast=12.496365500000024; north=41.9027835; name=Piazza della Repubblica, 12, 00185 Roma RM, Itàlia
dc.coverage.spatialeast=13.730187699999988; north=45.54805899999999; name=Pretorska palača, 6000 Koper - Capodistria, Eslovènia
dc.coverage.spatialeast=16.440193499999964; north=43.5081323; name=Ul. Andrije Alješija 4, 21000, Split, Croàcia
dc.coverage.spatialeast=23.727538800000048; north=37.9838096; name=Pireos 20, Athina 105 52, Grècia
dc.coverage.spatialeast=33.38227640000002; north=35.1855659; name=Kaimakli, Nicosia, Xipre
dc.identifier.citationPesic, N., Roset, J., Muros-Alcojor, A. Assessment of advanced natural ventilation space cooling potential across southern European coastal region. "Sustainability", Setembre 2018, vol. 10, núm. 9, p. 3029-1-3029-21.
dc.description.abstractAnalyzing the Köppen–Geiger climate classification and available climate data for the southern European Mediterranean coast, eight reference geolocations were selected for this analysis: the cities of Valencia, Barcelona, Marseille, Rome, Koper, Split, Athens and Nicosia. The first part of the research applies the climate potential for natural ventilation (CPNV) methodology that evaluates the theoretical availability of natural ventilation (NV) for each city location corresponding to human hygrothermal conditions. The second part of the article evaluates possible cooling energy savings (ES) applying the advanced natural ventilation (ANV) space-cooling strategy. A hypothetical four-story atrium office building model is designed for the building performance simulation (BPS) using mixed-mode (or hybrid-mode) and night-time natural ventilation (NNV) approaches. The objective is to present a comparison overview of possible space cooling ES between chosen geolocations. In the context of the current European Union’s (EU) energy transition (ET) process, the article displays ANV possibilities, as a renewable energy source (RES), in the reduction of building space cooling energy demands (ED) on the electricity grid.
dc.subjectÀrees temàtiques de la UPC::Física
dc.subject.lcshEnergy consumption
dc.subject.lcshNatural ventilation
dc.subject.otherAdvanced natural ventilation
dc.subject.otherBuilding performance simulation
dc.subject.otherSouthern Europe
dc.titleAssessment of advanced natural ventilation space cooling potential across southern European coastal region
dc.subject.lemacEnergia -- Consum
dc.contributor.groupUniversitat Politècnica de Catalunya. AIEM - Arquitectura, energia i medi ambient
dc.contributor.groupUniversitat Politècnica de Catalunya. GAT - Grup d'Arquitectura i Tecnologia
dc.description.peerreviewedPeer Reviewed
dc.rights.accessOpen Access
dc.description.versionPostprint (published version)
upcommons.citation.authorPesic, N., Roset, J., Muros-Alcojor, A.

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