ABSTRACT
Buildings have a significant energy and environmental footprint. In Greece, there are about 4.1 million buildings, a quarter of which are exclusive-use nonresidential buildings. The aim of this work is to define the average construction and technical characteristics of the existing Hellenic nonresidential buildings, and to assess their energy performance, responding to the need for more information and insight on this sector. The work exploits data from about 2400 building energy audits that include general information as well as specific characteristics on the envelope construction and the electromechanical installations. The information were first screened by a data quality control and were then organized into 239 classes that correspond to the Hellenic nonresidential building typology, defined in terms of building use, vintage, and location. The analysis revealed that there is a great potential for upgrading the existing building stock, since only 4% of the audited buildings meet the current minimum thermal envelope code requirements and 15% are in compliance with code recommendations for the technical installations. Overall, only 1% of the buildings have fully compliant envelope and technical installations. The calculated total final energy use averages 217.5kWh/m2 for the entire NR sector, ranging between 89.0kWh/m2 and 530.0kWh/m2 among the different building uses.
Acknowledgments
This research is part of K.G. Droutsa dissertation work as doctorate candidate at the Department Physics, University of Patras, Greece.
The paper reflects the views only of the authors who have made every effort to prepare this material for the benefit of the public in light of current and available information. Neither Hellenic institutions and bodies nor the authors may be held responsible for the use which may be made of the information contained therein. The national EPC repository (buildingcert) has been developed and maintained by the Hellenic Ministry of Environment & Energy (YPEN) in collaboration with the Center for Renewable Energy Sources. The authors wish to acknowledge YPEN for allowing access to the EPC database. The analysis presented herein does not necessarily reflect the opinion of the Ministry.
This research did not receive any specific grant from funding agencies in the public, commercial, or not-for-profit sectors.
Disclosure statement
No potential conflict of interest was reported by the author(s).
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