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Reflections and trajectories for interdisciplinary research on the energy transition

Authors

  • Cesare Sposito University of Palermo (Italy)
  • Francesca Scalisi University of Palermo (Italy)

DOI:

https://doi.org/10.19229/2464-9309/1502024

Keywords:

Editorial

Abstract

Volume 15 of AGATHÓN follows on from its predecessors on Innovability©® | Digital Transition and Innovability©® | Ecological Transition, aware of its pressing topicality but also of the scope that the proposal of a threefold key of interpretation suggests. We have clarified the meaning of the term ‘innovability’©®, formerly in use in the economic and social sciences, which is attributed to a renewed driving force for a new paradigm of development that expresses one of the most crucial challenges of our time and the need for a ‘solidary’ convergence between the two inescapable instances of ‘innovation’ and ‘sustainability’, as if they were opposites and contrasts: beyond the term used, in a historical moment characterised by environmental, social and economic emergencies, Humanity promotes one of its prerogatives, the use of the ‘things’ that nature makes available to us to do something other than their primary function (innovation), aware that those resources are not inexhaustible (sustainability). In this context, which must always look forward, we must design our best political and systemic actions to promote the need to innovate by using the Planet’s resources well and consciously.

The goals of climate neutrality by 2050 and the reduction of CO2 emissions by 55% (compared to the 1990 level) by 2030 (European Commission, 2019, 2021) pose the European Union, and even more so the rest of the world, with several complex issues, including a significant increase in ‘clean’ energy production from alternative and renewable sources, the reduction of energy poverty, greater security of energy supply and a drastic decrease in dependence on energy imports; at the same time, the aim is to foster modern economic growth decoupled from the use of non-renewable resources, the creation of new jobs, and to generate environmental and health benefits, objectives with inevitable cultural, political, economic, production, technological and social implications to be addressed both within one’s borders and in foreign policy. The energy transition is, therefore, complex and challenging to implement because it involves ‘everything’ and is needed ‘everywhere’ but also because globally, primary energy consumption has been steadily increasing for at least half a century.

The theoretical and experimental framework presented in Volume 15 of AGATHÓN demonstrates how energy, ecological and digital transitions can contribute synergistically to achieving the goals of decarbonisation and climate neutrality. The contributions published in the form of essays and research papers appear consistent with the 2022 Strategic Foresight Report (European Commission, 2022) based on the JRC report entitled Towards a Green and Digital Future – Key Requirements for Successful Twin Transitions in the European Union (Muench et alii, 2022) and founded on the fundamental concepts of (a) ‘twin’ transitions, as the key to a sustainable, fair and competitive future; (b) ‘just’ transition, for widespread acceptance of green and digital solutions to mitigate consumption and improve efficiency; (c) ‘integrated approach’ to challenges, to maximise the benefits of synergies and better manage risks. From the published contributions, it emerges the need for a paradigm shift that, on the one hand, is characterised by a ‘sufficiency’ approach (regarding new land occupation and new constructions) and a circular economy (to limit the use of non-renewable resources) capable of exploiting the potential of technologies for the new services made possible by digitisation, and on the other hand, relies on new user awareness of the limits of the Planet, pursuable through ‘soft’ urgent actions that are robust, flexible and easy to implement as they require a lower financial commitment. We assume that community energy renewable energy production from hydrogen and production chains can help mitigate greenhouse gas emissions. In that case, the vast existing real estate heritage is an area in which it is possible to intervene effectively, even where it has a historical and cultural value, using tools such as digital twins or analysis methodologies capable of assessing ex-ante the impacts on the ecosystem and prefigure scenarios for cities, buildings and production processes aimed at sustainable development and compatible with the urgent objectives set for 2030 and 2050. These are some of the strategies, pathways, measures and actions that can take place by exploiting the availability of the substantial financial resources allocated by governments for transitions, stimulating the sensitivity of local administrators and enhancing the skills and transversal competencies of technicians and operators in the sector, but also and above all by raising users’ awareness of the risks posed by climate change, to activate their ‘behavioural’ response to the consumption of energy and non-renewable natural resources.

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Author Biographies

Cesare Sposito, University of Palermo (Italy)

Architect and PhD, he is an Associate Professor of Architecture Technology at the Department of Architecture. Founding Member of Demetra Ce.Re.Med. and of SITdA, he is the co-Director of Agathón Magazine. His main research interests are environmental sustainability, innovative materials for architecture, nanomaterials, energy saving of buildings and the conservation process, with particular attention to protection systems for archaeological sites.
E-mail: cesare.sposito@unipa.it

Francesca Scalisi, University of Palermo (Italy)

Architect and PhD, she is a Researcher in Industrial Design at the Department of Culture e Società and a founding Member of Demetra – Centro Documentazione e Ricerca Euro-Mediterranea. She conducts research on environmental sustainability issues, with particular emphasis on materials life cycle, ecological communication, nanostructured materials, and climate change mitigation strategies, pathways, measures and actions.
E-mail: francesca.scalisi@unipa.it

References

Accenture (2021), The European Double Up – A twin strategy that will strengthen competitiveness. [Online] Available at: accenture.com/_acnmedia/PDF-144/Accenture-The-European-Double-Up.pdf [Accessed 30 June 2024].

Azzalin, M. (2024), “Indicatore Smart Readiness per l’edilizia – Asset digitali per la transizione energetica | Smart Readiness for buildings – Digital asset for energy transition”, in Agathón | International Journal of Architecture, Art and Design, vol. 15, pp. 148-159. [Online] Available at: doi.org/10.19229/2464-9309/15112024 [Accessed 30 June 2024].

Baiani, S., Altamura, P., Turchetti, G. and Romano, G. (2024), “Transizione energetica e circolare del patrimonio industriale – Il caso dell’ex SNIA a Roma | Energy and circular transition of the industrial heritage – The Ex SNIA case in Rome”, in Agathón | International Journal of Architecture, Art and Design, vol. 15, pp. 190-203. [Online] Available at: doi.org/10.19229/2464-9309/15152024 [Accessed 30 June 2024].

Battisti, A., Bellisario, M. G., Carbonara, G., D’Amico, S., De Santoli, L., Mercalli, M., Rubino, C., Scoppola, F., Banchini, R., Soragni, U. and Bladescu, I. (2015), Linee di indirizzo per il miglioramento dell’efficienza energetica nel Patrimonio culturale – Architettura, centri e nuclei storici ed urbani. [Online] Available at: soprintendenzapdve.beniculturali.it/la-soprintendenza-informa/atti-di-indirizzo/linee-guida-di-indirizzo-per-il-miglioramento-dellefficienza-energetica-nel-patrimonio-culturale/ [Accessed 30 June 2024].

Battisti, A. and Calvano, A. (2024), “Hydrogen Valleys – Scenari di transizione energetica e sviluppo locale per città medie | Hydrogen Valleys – Energy transition and local development scenarios for medium-sized cities”, in Agathón | International Journal of Architecture, Art and Design, vol. 15, pp. 48-57. [Online] Available at: doi.org/10.19229/2464-9309/1532024 [Accessed 30 June 2024].

BCFN and MUFPP (2018), Food and Cities – The role of cities for achieving the sustainable development goals. [Online] Available at: foodpolicymilano.org/wp-content/uploads/2019/10/food_cities.pdf [Accessed 30 June 2024].

Boeri, A., Longo, D., Boulanger, S. O. M. and Massari, M. (2024), “Contratto di Cittadinanza Energetica e transizione delle città europee | Energy Citizenship Contract and European cities transition”, in Agathón | International Journal of Architecture, Art and Design, vol. 15, pp. 170-179. [Online] Available at: doi.org/10.19229/2464-9309/15132024 [Accessed 30 June 2024].

Bruno, D., Palmieri, S., Palomba, R., D’Alessandro, F. and Bisson M. (2024), “Infrastrutture di mobilità intelligenti e sostenibili – Un nuovo sistema di connessioni urbane | Smart and sustainable mobility infrastructure – A new system of urban connections”, in Agathón | International Journal of Architecture, Art and Design, vol. 15, pp. 286-295. [Online] Available at: doi.org/10.19229/2464-9309/15232024 [Accessed 30 June 2024].

Caffo, L. (2021), “Dalla carne al digitale, la svolta ecologica è impossibile senza capire quanto consumiamo”, interview by Orlando, V. E., in La Repubblica, 27/12/2021. Online] Available at: repubblica.it/green-and-blue/2021/12/27/news/la_scienza_produce_solo_dati_ma_per _interpretarli_servono_i_filosofi_-331086511/ [Accessed 30 June 2024].

Casanovas, X., Alonso Campanero, J. A. and Campisi, T. (2024), “Patrimonio culturale e transizione energetica – Una lezione dal passato | Cultural heritage and energy transition – A lesson from the past”, in Agathón | International Journal of Architecture, Art and Design, vol. 15, pp. 58-69. [Online] Available at: doi.org/10.19229/2464-9309/1542024 [Accessed 30 June 2024].

Chakrabarty, D. (2009), “The climate of history – Four theses”, in Critical Inquiry, vol. 35, issue 2, pp. 197-222. [Online] Available at: doi.org/10.1086/596640 [Accessed 30 June 2024].

Clemente, C., Mancini, F., Mangiatordi, A. and Zagaria, M. (2024), “Riqualificazione e decarbonizzazione di edifici scolastici – Il CIS Roma Scuole Verdi | Deep renovation and decarbonisation of school buildings – The CIS Roma Scuole Verdi”, in Agathón | International Journal of Architecture, Art and Design, vol. 15, pp. 204-215. [Online] Available at: doi.org/10.19229/2464-9309/15162024 [Accessed 30 June 2024].

Coccia, L., Cipolletti, S. and Corvaro, G. (2024), “Green Room – Un dispositivo architettonico e urbano per l’efficientamento energetico e il comfort ambientale | Green Room – An architectural and urban device for energy efficiency and environmental comfort”, in Agathón | International Journal of Architecture, Art and Design, vol. 15, pp. 238-251. [Online] Available at: doi.org/10.19229/2464-9309/15192024 [Accessed 30 June 2024].

Crippa, D., Di Prete, B., Fagnoni, R. and Leonardi, C. (2024), “Distretti energetici collaborativi – Laboratori urbani per un’energia di prossimità | Collaborative energy districts – Urban workshops for proximity energy”, in Agathón | International Journal of Architecture, Art and Design, vol. 15, pp. 296-305. [Online] Available at: doi.org/10.19229/2464-9309/15242024 [Accessed 30 June 2024].

De Certeau, M. (2011), The Practice of Everyday Life, University of California Press, Berkeley.

Decreto Legislativo 19 agosto 2005 n. 192, “Attuazione della direttiva 2002/91/CE relativa al rendimento energetico nell’edilizia”, in Gazzetta Ufficiale, Serie Generale n. 222 del 23/09/2005, Suppl. Ordinario n. 158. [Online] Available at: gazzettaufficiale.it/eli/id/2005/09/23/005G0219/sg [Accessed 30 June 2024].

Del Curto, D., Garzulino, A. and Turrina, A. (2024), “Sostenibilità e transizione energetica – Prospettive per un approccio integrato al patrimonio costruito | Sustainability and energy transition – Perspectives for an integrated approach to the built heritage”, in Agathón | International Journal of Architecture, Art and Design, vol. 15, pp. 98-113. [Online] Available at: doi.org/10.19229/2464-9309/1582024 [Accessed 30 June 2024].

European Commission (2022a), Communication from the Commission to the European Parliament, the European Council, the European Economic and Social Committee and the Committee of the Regions – REPowerEU Plan, document 52022DC0230, 230 final. [Online] Available at: eur-lex.europa.eu/legal-content/EN/TXT/?uri=COM%3A2022%3A230%3AFIN [Accessed 30 June 2024].

European Commission (2022b), Communication from the Commission to the European Parliament and the Council – 2022 Strategic Foresight Report Twinning the green and digital transitions in the new geopolitical context, document 52022DC0289, COM/2022/289 final. [Online] Available at: eur-lex.europa.eu/legal-content/EN/TXT/?uri=COM:2022:289:FIN [Accessed 30 June 2024].

European Commission (2021a), New European Bauhaus – Shaping more beautiful, sustainable and inclusive forms of living together. [Online] Available at: europa.eu/new-european-bauhaus/index_en [Accessed 30 June 2024].

European Commission (2021b), Communication from the Commission to the European Parliament, the Council, the European Economic and Social Committee and the Committee of the Regions – Forging a Climate-Resilient Europe – The new EU Strategy on Adaptation to Climate Change, document 52021DC0082, 82 final. [Online] Available at: eur-lex.europa.eu/legal-content/en/ALL/?uri=CELEX:52021DC0082 [Accessed 30 June 2024].

European Commission (2021c), Communication from the Commission to the European Parliament, the Council, the European Economic and Social Committee and the Committee of the Regions – A Hydrogen Strategy for a Climate-neutral Europe. [Online] Available at: eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX%3A52020DC0301 [Accessed 30 June 2024].

European Commission (2019a), Communication from the Commission to the European Parliament, the European Council, the Council, the European Economic and Social Committee and the Committee of the Regions – The European Green Deal, document 52019DC0640, 640 final. [Online] Available at: eur-lex.europa.eu/legal-content/EN/TXT/?uri=COM%3A2019%3A640%3AFIN [Accessed 30 June 2024].

European Commission (2019b), Report from the Commission to the European Parliament, the Council, the European Economic and Social Committee and the Committee of the Regions – Review of progress on implementation of the EU Green Infrastructure Strategy, document 52019DC0236, 236 final. [Online] Available at: eur-lex.europa.eu/legal-content/EN/TXT/?uri=COM:2019:236:FIN [Accessed 30 June 2024].

European Parliament (2020), Next Generation EU – A European instrument to counter the impact of the coronavirus pandemic. [Online] Available at: europarl.europa.eu/thinktank/en/document/EPRS_BRI(2020)652000 [Accessed 30 June 2024].

Floridi, L. (2020), Il verde e il blu – Idee ingenue per migliorare la politica, Raffaello Cortina Editore, Milano.

Follesa, S., Corti, M., Struzziero, D. and Piluso, A. (2024), “Design del sistema alimentare per comunità resilienti – Agricoltura urbana e spazi sostenibili | Food system design for resilient communities – Urban agriculture and sustainable spaces”, in Agathón | International Journal of Architecture, Art and Design, vol. 15, pp. 306-315. [Online] Available at: doi.org/10.19229/2464-9309/15252024 [Accessed 30 June 2024].

Gaddi, R. and Mastrolonardo, L. (2024), “Micro-reti locali per la transizione verde della filiera della lana | Local micro-networks for green transition of the wool supply chain”, in Agathón | International Journal of Architecture, Art and Design, vol. 15, pp. 344-353. [Online] Available at: doi.org/10.19229/2464-9309/15292024 [Accessed 30 June 2024].

Gausa, M. (2019), “Resili(g)ence – Città Intelligenti / Paesaggi Resilienti | Resili(g)ence – Smart Cities / Resilient Landscape”, in Agathón | International Journal of Architecture Art and Design, vol. 6, pp. 14-25. [Online] Available at: doi.org/10.19229/2464-9309/622019 [Accessed 30 June 2024].

Ghosh, A. (2017), La grande cecità – Il cambiamento climatico e l’impensabile, Neri Pozza, Vicenza.

Höpfl, L., Pilla, D., Köhl, F., Burkhard, C., Lienhard, J. and Ludwig, F. (2022), “Tree- façades – Integrating trees in the building envelope as a new form of Façade Greening”, in Scalisi, F., Sposito, C. and De Giovanni, G. (eds), On sustainable built environment between connections and greenery, Palermo University Press, Palermo, pp. 192-213. [Online] Available at: doi.org/10.19229/978-88-5509-446-7/7112022 [Accessed 30 June 2024].

IEA – International Energy Agency (2021), 2020 Global Status Report for Buildings and Construction – Towards a zero-emission, efficient and resilient buildings and construction sector. [Online] Available at: wedocs.unep.org/bitstream/handle/20.500.11822/34572/GSR_ES.pdf?sequence=3&isAllowed=y [Accessed 30 June 2024].

IPCC – Intergovernmental Panel on Climate Change (2023), Climate Change 2023 – Synthesis Report – Summary for Policymaker. [Online] Available at: ipcc.ch/report/ar6/syr/downloads/report/IPCC_AR6_SYR_SPM.pdf [Accessed 30 June 2024].

IPCC – Intergovernmental Panel on Climate Change (2022a), Climate Change 2022 – Impacts, Adaptation and Vulnerability – Summary for Policymakers, Switzerland. [Online] Available at: ipcc.ch/report/ar6/wg2/downloads/report/IPCC_AR6_WGII_FinalDraft _FullReport.pdf [Accessed 30 June 2024].

IPCC – Intergovernmental Panel on Climate Change (2022b), Climate Change 2022 – Mitigation of climate change, Working Group III 6th Assessment Report. [Online] Available at: ipcc.ch/report/ar6/wg3/ [Accessed 30 June 2024].

ISPRA (2023), Verso città resilienti – Gli interventi del Programma sperimentale per l’adattamento ai cambiamenti climatici in ambito urbano, Quaderni Ambiente e Società, n. 23. [Online] Available at: isprambiente.gov.it/it/pubblicazioni/quaderni/ambiente-e-societa/verso-citta-resilienti-gli-interventi-del-programma-sperimentale-per-l-adattamento-ai-cambiamenti-climatici-in-ambito-urbano [Accessed 30 June 2024].

Legge 9 gennaio 1991 n. 10, “Norme per l’attuazione del Piano Energetico Nazionale in materia di uso razionale dell’energia, di risparmio energetico e di sviluppo delle fonti rinnovabili di energia”, in Gazzetta Ufficiale, Serie Generale n. 13 del 16/01/1991, Suppl. Ordinario n. 6. [Online] Available at: gazzettaufficiale.it/eli/id/1991/01/16/091G0015/sg [Accessed 30 June 2024].

Lefebvre, H. (2016), The production of space [or. ed. La production de l’espace, 1974], Blackwell, Malden (MA).

Longo, D., Turillazzi, B., Roversi, R., Lilla, L., Nucci, C. A., Piccinini, A. and Costa, A. (2024), “Gemello digitale urbano e modellazione energetica – Esperienze e analisi di casi d’uso | Urban Digital Twin and Energy Modeling – Experiences and case study analyses”, in Agathón | International Journal of Architecture, Art and Design, vol. 15, pp. 160-169. [Online] Available at: doi.org/10.19229/2464-9309/15122024 [Accessed 30 June 2024].

Marsala, G. and Renda, G. (2024), “Postprodurre il moderno – Lineamenti per una transizione energetica intesa come transizione architettonica | Post-producing the modern – Guidelines for an energy development as an architectural transition”, in Agathón | International Journal of Architecture, Art and Design, vol. 15, pp. 98-113. [Online] Available at: doi.org/10.19229/2464-9309/1572024 [Accessed 30 June 2024].

Mantziaras, P. (2024), “La previsione strategica urbana nel contesto europeo – Le lezioni di Ginevra e Lussemburgo | Urban strategic foresight in European territories – Lessons from Geneva and Luxembourg”, in Agathón | International Journal of Architecture, Art and Design, vol. 15, pp. 30-47. [Online] Available at: doi.org/10.19229/2464-9309/1522024 [Accessed 30 June 2024].

Marino, D., Antonelli, M., Fattibene, D., Mazzocchi, G. and Tarra, S. (2020), Cibo, città, sostenibilità – Un tema strategico per l’Agenda 2030, ASVIS, Roma. [Online] Available at: iris.uniroma1.it/handle/11573/1477879?mode=complete [Accessed 30 June 2024].

MASE – Ministero dell’Ambiente e della Sicurezza Energetica (2023), Piano Nazionale di Adattamento ai Cambiamenti Climatici. [Online] Available at: mase.gov.it/pagina/piano-nazionale-di-adattamento-ai-cambiamenti-climatici-pnacc [Accessed 30 June 2024].

Ministero della Transizione Ecologica (2022), “Decreto 23 giugno 2022 – Criteri ambientali minimi per l’affidamento del servizio di progettazione di interventi edilizi, per l’affidamento dei lavori per interventi edilizi e per l’affidamento congiunto di progettazione e lavori per interventi edilizi (22A04307)”, in Gazzetta Ufficiale, Serie Generale n. 183 del 06/08/2022. [Online] Available at: gazzettaufficiale.it/eli/id/2022/08/06/22A04307/sg [Accessed 30 June 2024].

Ministero dello Sviluppo Economico (2021), Piano Nazionale di Ripresa e Resilienza. [Online] Available at: governo.it/sites/governo.it/files/PNRR.pdf [Accessed 30 June 2024].

Montalvo, C., Schlindwein, L., Ruggieri, B. and Kantel, A. (2021), Framework for research on energy citizenship emergence structure and dynamics – D1.1 of the Horizon 2020 project GRETA, EC grant agreement no. 101022317, The Hague, The Netherlands. [Online] Available at: projectgreta.eu/wp-content/uploads/2022/01/GRETA_D1_1_Energy-citizenship-emergence-framework_v1_0.pdf. [Accessed 30 June 2024].

Montuori, L., Converso, S. and Rabazo Martín, M. (2024), “Per una transizione progettuale – Composizione e progetto del verde per la città contemporanea | For a design transition – Green composition and design for the contemporary city”, in Agathón | International Journal of Architecture, Art and Design, vol. 15, pp. 138-147. [Online] Available at: doi.org/10.19229/2464-9309/15102024 [Accessed 30 June 2024].

Muench, S., Stoermer, E., Jensen, K., Asikainen, T., Salvi, M. and Scapolo, F. (2022), Towards a green and digital future – Key requirements for successful twin transitions in the European Union, JRC129319, Publications Office of the European Union, Luxembourg. [Online] Available at: data.europa.eu/doi/10.2760/977331 [Accessed 16 March 2024].

Ness, D. (2024), “La decarbonizzazione degli edifici sarà sufficiente? Limitare e ridistribuire l’aumento di superficie costruita | Will decarbonising buildings be enough? Constrain and redistribute growth in floor area”, in Agathón | International Journal of Architecture, Art and Design, vol. 15, pp. 84-97. [Online] Available at: doi.org/10.19229/2464-9309/1562024 [Accessed 30 June 2024].

Olivastri, C. and Tagliasco, G. (2024), “Servizi per il riuso e il riparo – L’allestimento tra touchpoints e infrastrutture relazionali | Services for reuse and repair – The arrangement between touchpoints and relational infrastructures”, in Agathón | International Journal of Architecture, Art and Design, vol. 15, pp. 324-331. [Online] Available at: doi.org/10.19229/2464-9309/15272024 [Accessed 30 June 2024].

Osello, A., Del Giudice, M., Donato, A. J. and Fratto, A. (2024), “Verso la Neutralità Climatica – Il ruolo chiave del Digital Twin nell’Industria 5.0 | Towards Climate Neutrality – The key role of the Digital Twin in Industry 5.0”, in Agathón | International Journal of Architecture, Art and Design, vol. 15, pp. 276-285. [Online] Available at: doi.org/10.19229/2464-9309/15222024 [Accessed 30 June 2024].

Paganin, G., Talamo, C., Atta, N. and Tinelli, E. (2024), “Riuso di componenti edilizi – Sistema di valutazione a supporto delle decisioni negli interventi di ridistribuzione interna | Reuse of building components – Assessment system to support decisions in indoor re-layout interventions”, in Agathón | International Journal of Architecture, Art and Design, vol. 15, pp. 266-275. [Online] Available at: doi.org/10.19229/2464-9309/15212024 [Accessed 30 June 2024].

Palumbo, E., Romano, R. and Gallo, P. (2024), “Strategie life cycle thinking per la realizzazione di scuole nZEB | Life cycle thinking strategies for constructing nZEB schools”, in Agathón | International Journal of Architecture, Art and Design, vol. 15, pp. 252-265. [Online] Available at: doi.org/10.19229/2464-9309/15202024 [Accessed 30 June 2024].

Peghin, G. (2024), “Verso una transizione culturale dei paesaggi energetici – Tra responsabilità e necessità | Towards a cultural transition of energy landscapes – Between responsibility and necessity”, in Agathón | International Journal of Architecture, Art and Design, vol. 15, pp. 18-29. [Online] Available at: doi.org/10.19229/2464-9309/1512024 [Accessed 30 June 2024].

Pirina, C., Comi, G. and d’Abramo, V. (2024), “Per una transizione progettuale – Composizione e progetto del verde per la città contemporanea | For a design transition – Green composition and design for the contemporary city”, in Agathón | International Journal of Architecture, Art and Design, vol. 15, pp. 124-137. [Online] Available at: doi.org/10.19229/2464-9309/1592024 [Accessed 30 June 2024].

Ritchie, H. and Roser, M. (2020), “CO₂ emissions – How much CO₂ does the world emit? Which countries emit the most?”, in OurWorldInData.org, revised in January 2024. [Online] Available at: ourworldindata.org/co2-emissions [Accessed 16 March 2024].

Rockström, J., Gupta, J., Qin, D., Lade, S., Abrams, J., Andersen, L. et alii (2023), “Safe and just Earth system boundaries”, in Nature, vol. 619, article 7968, pp. 102-111. [Online] Available at: doi.org/10.1038/s41586-023-06083-8 [Accessed 30 June 2024].

Schumacher, E. F. (1974), Small is beautiful – Economics as if people mattered, Sphere, London.

The European Parliament and the Council of the European Union (2010), Directive 2010/31/EU of the European Parliament and of the Council of 19 May 2010 on the energy performance of buildings (recast), document 32010L0031. [Online] Available at: eur-lex.europa.eu/legal-content/EN/TXT/?uri=celex%3A32002L0091 [Accessed 30 June 2024].

Thrän, D., Gawel, E. and Fiedler, D. (2020), “Energy landscapes of today and tomorrow”, in Energy, Sustainability and Society, vol. 10, article 43, pp. 1-3. [Online] Available at: doi.org/10.1186/s13705-020-00273-2 [Accessed 30 June 2024].

Tzortzi, J. N., Lux, M. S. and Pardo Delgado, N. (2024), “Infrastrutture verdi urbane in America Latina – Una strategia per i cortili di Bogotà | Urban Green Infrastructure in Latin America – A strategy for Bogota courtyards”, in Agathón | International Journal of Architecture, Art and Design, vol. 15, pp. 216-227. [Online] Available at: doi.org/10.19229/2464-9309/15172024 [Accessed 30 June 2024].

Vacanti, A. and Carmelo, L. (2024), “Tecnologia, energia e tempo – Percorsi sperimentali per il design di tecnologie appropriate | Technology, energy, and time – Experimental paths for the design of appropriate technology”, in Agathón | International Journal of Architecture, Art and Design, vol. 15, pp. 316-323. [Online] Available at: doi.org/10.19229/2464-9309/15262024 [Accessed 30 June 2024].

UN – United Nations (1987), Report of the World Commission on Environment and Development – Our Common Future. [Online] Available at: sustainabledevelopment.un.org/content/documents/5987our-common-future.pdf [Accessed 30 June 2024].

United Nations – Department of Economic and Social Affairs, Population Division (2022), World Population Prospects 2022 – Summary of Results, UN DESA/POP/2022/TR/NO.3. [Online] Available at: un.org/development/desa/pd/sites/www.un.org.development.desa.pd/ files/wpp2022_summary_of_results.pdf [Accessed 30 June 2024].

Valente, R., Mozingo, L. A., Bosco, R. and Giacobbe, S. (2024), “Gestione integrata delle risorse naturali in contesti urbani sostenibili | Integrated natural resource management in sustainable urban context”, in Agathón | International Journal of Architecture, Art and Design, vol. 15, pp. 180-189. [Online] Available at: doi.org/10.19229/2464-9309/15142024 [Accessed 30 June 2024].

Valenti, A., Scalisi, F., Sposito, C., Dellamotta L. and Masserdotti, A. (2024), “Energia, tecnologia emotiva e valore culturale dei dati – Creare consapevolezza nell’utente con lo storytelling | Energy, emotional technology and cultural value of data – Creating user awareness through storytelling”, in Agathón | International Journal of Architecture, Art and Design, vol. 15, pp. 70-83. [Online] Available at: doi.org/10.19229/2464-9309/1552024 [Accessed 30 June 2024].

WEF – World Economic Forum (2022a), The Global Risks Report – 17th Edition – Insight Report. [Online] Available at: weforum.org/reports/global-risks-report-2022/in-full [Accessed 30 June 2024].

WEF – World Economic Forum (2022b), “A digital silver bullet for the world – Digitalization”, in weforum.org, 19/05/2022. [Online] Available at: weforum.org/agenda/2022/05/a-digital-silver-bullet-for-the-world/ [Accessed 30 June 2024].

WEF – World Economic Forum (2021), “This is how climate change could impact the global economy”, in weforum.org, 28/06/2021. [Online] Available at: weforum.org/agenda/2021/06/impact-climate-change-global-gdp/ [Accessed 30 June 2024].

Zannoni, M., Succini, L., Rosato, L. and Pasini, V. (2024), “Transitional industrial designer – La responsabilità di progettisti e imprese per una transizione sostenibile | Transitional industrial designer – The responsibility of designers and companies for a sustainable transition”, in Agathón | International Journal of Architecture, Art and Design, vol. 15, pp. 332-343. [Online] Available at: doi.org/10.19229/2464-9309/15282024 [Accessed 30 June 2024].

Zarcone, R., Nava, F. and Tucci, F. (2024), “Mitigazione del clima e comfort umano – Uno strumento per la modellazione e simulazione di supporto alle decisioni | Climate mitigation and human comfort – A decision-support modeling and simulation tool”, in Agathón | International Journal of Architecture, Art and Design, vol. 15, pp. 228-237. [Online] Available at: doi.org/10.19229/2464-9309/15182024 [Accessed 30 June 2024].

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30-06-2024

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How to Cite

Sposito, C. and Scalisi, F. (2024) “Reflections and trajectories for interdisciplinary research on the energy transition”, AGATHÓN | International Journal of Architecture, Art and Design, 15, pp. 3–17. doi: 10.19229/2464-9309/1502024.

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