PSI - Issue 55

Tahmineh Akbarinejad et al. / Procedia Structural Integrity 55 (2024) 46–56 8 T Akbarinejad,* , E. Machlein, C. Bertolin, O.Ogutc, G. Lobaccaro, A. T.Salaj / Structural Integrity Procedia 00 (2019) 000 – 000

53

intervention. The Møllenberg case study serves to evaluate the extent to which the identified challenges and barriers apply to this specific neighborhood. The results indicate that Møllenberg faces similar challenges as those detected from literature, with the added complexity of social barriers due to a lack of public acceptance for solar energy solutions. These findings offer valuable insights for policymakers to develop strategic plans to meet global sustainability goals in historical areas, which represents one of the most relevant concerns considering the high prevalence of historical areas across Europe. Acknowledgements The authors acknowledge the Norwegian Research Council for the support through the research project FRIPRO FRINATEK no. 324243 HELIOS.

References

Akbarinejad, T., Machelin, E., Bertolin, C., Lobaccaro, G., & Temeljotov Salaj, A. (2023). Enhancing the deployment of solar energy in Norwegian high-sensitive built environments: Challenges and barriers — A scoping review. Frontiers in Built Environment Sustainable Design and Construction , Sustainable Design and Construction . Approximately 100 million households rely on rooftop solar PV by 2030 – Analysis . (n.d.). IEA. Retrieved 17 August 2023, from https://www.iea.org/reports/approximately-100-million-households-rely-on-rooftop-solar-pv by-2030 Arksey, H., & O’Malley, L. (2005). Scoping studies: Towards a methodological framework. International Journal of Social Research Methodology , 8 (1), Article 1. https://doi.org/10.1080/1364557032000119616 Badawy, N. M., El Samaty, H. S., & Waseef, A. A. E. (2022). Relevance of monocrystalline and thin-film technologies in implementing efficient grid-connected photovoltaic systems in historic buildings in Port Fouad city, Egypt. Alexandria Engineering Journal , 61 (12), Article 12. https://doi.org/10.1016/j.aej.2022.06.007 Bogdanov, D., Ram, M., Aghahosseini, A., Gulagi, A., Oyewo, A. S., Child, M., Caldera, U., Sadovskaia, K., Farfan, J., De Souza Noel Simas Barbosa, L., Fasihi, M., Khalili, S., Traber, T., & Breyer, C. (2021). Low-cost renewable electricity as the key driver of the global energy transition towards sustainability. Energy , 227 , 120467. https://doi.org/10.1016/j.energy.2021.120467 Borda, A., & Bowen, J. P. (2017, July 1). Smart Cities and Cultural Heritage – A Review of Developments and Future Opportunities . Electronic Visualisation and the Arts (EVA 2017). https://doi.org/10.14236/ewic/EVA2017.2 Byantikvaren . (n.d.). Trondheim Kommune. Retrieved 6 September 2023, from https://www.trondheim.kommune.no/byantikvaren Cabeza, L. F., de Gracia, A., & Pisello, A. L. (2018). Integration of renewable technologies in historical and heritage buildings: A review. Energy and Buildings , 177 , 96 – 111. https://doi.org/10.1016/j.enbuild.2018.07.058 Commission, E. (2020). Proposal for a Regulation of the European Parliament and of the Council establishing the framework for achieving climate neutrality and amending Regulation (EU) 2018/1999 (European Climate Law). COM (2020) 80 . Cumo, F., Nardecchia, F., Agostinelli, S., & Rosa, F. (2022). Transforming a Historic Public Office Building in the Centre of Rome into nZEB: Limits and Potentials. Energies , 15 (3), Article 3. https://doi.org/10.3390/en15030697 De Medici, S. (2021). Italian Architectural Heritage and Photovoltaic Systems. Matching Style with Sustainability. Sustainability , 13 (4), 2108. https://doi.org/10.3390/su13042108