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2. Sustainable Retrofit of Existing Buildings: Impact Assessment of Residual Fluorocarbons through Uncertainty and Sensitivity Analyses. (2023). Albatici, Rossano ; di Maggio, Rosa ; di Filippo, Rocco ; Bursi, Oreste S ; Maracchini, Gianluca.
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3. Audit-Based Energy Performance Analysis of Multifamily Buildings in South-East Poland. (2023). Michalak, Piotr ; Szczotka, Krzysztof ; Szymiczek, Jakub.
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4. Building Energy Audits—Diagnosis and Retrofitting towards Decarbonization and Sustainable Cities. (2022). Balaras, Constantinos A.
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   RePEc:gam:jeners:v:15:y:2022:i:6:p:2039-:d:768505.

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5. The overlooked criteria in green building certification system: Embodied energy and thermal insulation on non-residential building with a case study in Malaysia. (2022). Ng, Wai Lam ; Chin, Min Yee ; Woon, Kok Sin ; Zhou, Jinqin ; Ching, Ann Ying.
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   RePEc:eee:energy:v:259:y:2022:i:c:s036054422201814x.

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6. The Economic Effects of New Patterns of Energy Efficiency and Heat Sources in Rural Single-Family Houses in Poland. (2020). Drygas, Mirosaw ; Ksiopolski, Krzysztof ; Proniska, Kamila ; Nurzyska, Iwona.
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   RePEc:gam:jeners:v:13:y:2020:i:23:p:6358-:d:454798.

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1. Estimating future thresholds for the 15% eligibility criteria of the EU taxonomy with limited data availability. (2025). Teubler, Jens ; Buschbeck, Christian.
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2. The Building Energy Performance Gap in Multifamily Buildings: A Detailed Case Study Analysis of the Energy Demand and Collective Heating System. (2025). Janssens, Arnold ; Steeman, Marijke ; van De, Stijn.
   In: Sustainability.
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3. Analyzing the Carbon Performance Gap and Thermal Energy Performance Gap of School Buildings in Osijek-Baranja County, Croatia. (2025). Jurii, Hana Begi ; Krsti, Hrvoje ; Domazetovi, Mihaela.
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4. LCA Operational Carbon Reduction Based on Energy Strategies Analysis in a Mass Timber Building. (2024). Messadi, Tahar ; Hemmati, Moein ; Gu, Hongmei.
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5. Geographic Information Systems for Facilitating Audits of the Urban Built Environment. (2023). Dascalaki, Elena G ; Balaras, Constantinos A ; Theodoropoulos, Andreas I.
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6. Who bears the energy cost? Local income deprivation and the household energy efficiency gap. (2023). Chaudhuri, Kausik ; Huaccha, Gissell.
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7. Energy performance gap of the Italian residential building stock: Parametric energy simulations for theoretical deviation assessment from standard conditions. (2023). Palladino, Domenico.
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8. A Multidisciplinary Approach for an Effective and Rational Energy Transition in Crete Island, Greece. (2022). Skoulou, Vasiliki ; Pappa, Stavroula ; Antonakakis, Ioannis ; Dakanali, Eirini ; Christakis, Dimitris ; al Katsaprakakis, Dimitris ; Condaxakis, Constantinos ; Michopoulos, Apostolos ; Maragkaki, Aggeliki.
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9. Uncertainties in Non-Domestic Energy Performance Certificate Generating in the UK. (2021). Amirkhani, Shiva ; Godfrey, Paulina ; Tahayori, Hooman ; Zhang, Hexin ; Cook, Darren ; Mylona, Anastasia ; Bahadori-Jahromi, Ali.
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10. Quantitative analysis of information interaction in building energy systems based on mutual information. (2021). Deng, Shuai ; Zhong, Shengyuan ; Hussain, Sajjad ; Zhao, Jun ; Zhu, Jiebei ; Li, Hao ; Wang, Xiaoyuan.
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11. Energy performance indexes based on monitored data of social housing buildings in Northern Italy. (2021). Blazquez, Teresa ; Ferrari, Simone ; Dall, Giuliano.
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12. Impact of Adding Comfort Cooling Systems on the Energy Consumption and EPC Rating of an Existing UK Hotel. (2020). Amirkhani, Shiva ; Godfrey, Paulina ; Cook, Darren ; Mylona, Anastasia ; Bahadori-Jahromi, Ali.
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13. A Data-driven Approach for Sustainable Building Retrofit—A Case Study of Different Climate Zones in China. (2020). Ng, Thomas S ; He, Qiong ; Hossain, Md Uzzal ; Augenbroe, Godfried L.
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14. Benchmarks for Embodied and Operational Energy Assessment of Hellenic Single-Family Houses. (2020). Kontoyiannidis, Simon ; Argiropoulou, Poulia A ; Droutsa, Kalliopi G ; Dascalaki, Elena G ; Balaras, Constantinos A.
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15. Understanding technology ownership to reveal adoption trends for energy efficiency measures in the Greek residential sector. (2020). Dendramis, Yiannis ; Stavrakas, Vassilis ; Spyridaki, Niki-Artemis ; Flamos, Alexandros.
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16. Energy performance certificates — New opportunities for data-enabled urban energy policy instruments?. (2019). Kordas, Olga ; Pasichnyi, Oleksii ; Wallin, Jorgen ; Shahrokni, Hossein ; Levihn, Fabian.
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17. Variances in residential heating consumption – Importance of building characteristics and occupants analysed by movers and stayers. (2019). van den Brom, Paula ; Gram-Hanssen, Kirsten ; Visscher, Henk ; Meijer, Arjen ; Hansen, Anders Rhiger.
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18. Bottom-up modelling methodology for urban-scale analysis of residential space heating demand response. (2019). Pedersen, Theis Heidmann ; Petersen, Steffen ; Hedegaard, Rasmus Elbak ; Kristensen, Martin Heine ; Brun, Adam.
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19. Energy efficiency retrofits in the residential sector – analysing tenants’ cost burden in a German field study. (2018). Weber, Ines ; Wolff, Anna.
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20. Thermal performance evaluation of low-income buildings based on indoor temperature performance. (2018). Kim, Seo Hoon ; Lee, Jung Hun ; Jeong, Hakgeun ; Song, Doosam.
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21. Quantitative modelling of why and how homeowners decide to renovate energy efficiently. (2018). Chryssochoidis, George ; Pettifor, H ; Wilson, C.
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22. Big data GIS analysis for novel approaches in building stock modelling. (2017). Hellweg, Stefanie ; Buffat, Rene ; Heeren, Niko ; Raubal, Martin ; Froemelt, Andreas.
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23. Mapping the energy performance of hellenic residential buildings from EPC (energy performance certificate) data. (2016). Kontoyiannidis, Simon ; Droutsa, Kalliopi G ; Dascalaki, Elena G ; Balaras, Constantinos A.
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