Assessing the performance of a renewable District Heating System to achieve nearly zero-energy status in renovated university campuses: A case study for Spain

•Advanced climate-resilient energy retrofit technology reduces the use of non-renewable energy in the building sector.•Renewable District Heating as an optimal technology in deep energy renovation strategies.•Sustainable cities and buildings are feasible by Centralised District Heating system powere...

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Bibliographic Details
Published in:Energy conversion and management 2023-09, Vol.292, p.117439, Article 117439
Main Authors: Rey-Hernández, Javier M., Rey-Martínez, Francisco J., Yousif, Charles, Krawczyk, Dorota
Format: Article
Language:English
Subjects:
Energy Efficiency
KPI
nZEB
Renewable District Heating
Retrofitting
Sustainable City
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Summary:•Advanced climate-resilient energy retrofit technology reduces the use of non-renewable energy in the building sector.•Renewable District Heating as an optimal technology in deep energy renovation strategies.•Sustainable cities and buildings are feasible by Centralised District Heating system powered by biomass.•Key Performance Indicators (KPIs), to achieve nZEB performances established in the European legislations. This paper presents the implementation of a biomass-fuelled District Heating System (DHS), as a part of a deep energy renovation exercise to achieve a climate-resilient campus with minimum carbon dioxide emissions. The case study is carried out for the University of Valladolid, an average-sized university in Spain, with a continental weather climate. Prior to renovation, the different building blocks had a wide-ranging level of fossil fuel consumption for space heating and domestic hot water ranging between 60 and 430 kWh/m2·year. The application of this centralised heating system allows to achieve the minimum threshold for near zero-energy buildings (nZEB) of 100-120 kWh/m2, in accordance with the Spanish Standards. These values correspond to the maximum European indicators for offices in continental weather conditions. Results of this comprehensive study show that 15 out of the 19 buildings reached the nZEB target, due to the proposed strategy. The overall carbon dioxide emissions have dropped by 92.69% as compared to the original fossil-fuel powered boiler, thus bringing carbon dioxide emissions down to 1.57 kgCO2/m2·y. Therefore, it is shown that deep energy renovation strategies through renewable energy DHS have the potential of achieving nZEB for universities in continental weather conditions.
ISSN:0196-8904
DOI:10.1016/j.enconman.2023.117439