Innovative systems for hydrogen storage (HEHS) – Visual design and AI for community engagement

Fabio Bianconi; Marco Filippucci; Federico Rossi; Michela Meschini

doi:10.69143/2464-9309/18252025

Autori

Fabio Bianconi Università di Perugia (Italia)
Marco Filippucci Università di Perugia (Italia)
Federico Rossi Università di Perugia (Italia)
Michela Meschini Università di Perugia (Italia)

DOI:

https://doi.org/10.69143/2464-9309/18252025

Parole chiave:

high-efficiency hydrogen storage, visual design, hydrogen color classification, artificial intelligence, sustainable transition

Abstract

Il progetto High Efficiency Hydrogen Storage (HEHS) si inserisce nel quadro della transizione ecologica, proponendo un sistema innovativo per lo stoccaggio dell’idrogeno basato su clatrati idrati. Il contributo affronta la dimensione visiva della transizione con l’obiettivo di proporre una codifica cromatica dell’idrogeno alternativa alla Hydrogen Colour Classification, oggi diffusa ma priva di basi percettive e teoriche condivise. La metodologia adottata integra teoria del colore, analisi delle identità visive esistenti e validazione percettiva tramite simulazione basata sui Large Language Models, modellando profili utente differenziati. La ricerca mira a costruire un linguaggio visivo accessibile, coerente e trasferibile, capace di restituire la complessità dei processi energetici e rafforzare la sostenibilità cognitiva delle comunicazioni ambientali.

Info sull'articolo

Ricevuto: 09/09/2025; Revisionato: 15/10/2025; Accettato: 17/10/2025

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Biografie autore

Fabio Bianconi, Università di Perugia (Italia)

Ingegnere e PhD, è Professore Ordinario di Disegno; si occupa di disegno dell’architettura, rappresentazione del paesaggio e innovazione digitale.
E-mail: fabio.bianconi@unipg.it

Marco Filippucci, Università di Perugia (Italia)

Ingegnere, PhD e Professore Associato di Disegno, si occupa di rappresentazione, percezione, paesaggio e tecniche digitali. È responsabile scientifico di progetti nazionali e internazionali.
E-mail: marco.filippucci@unipg.it

Federico Rossi, Università di Perugia (Italia)

Ingegnere e PhD, è Professore Ordinario di Fisica Tecnica Ambientale. La sua attività di ricerca riguarda idrogeno, energie rinnovabili, cambiamenti climatici, gas idrati ed efficienza energetica.
E-mail: federico.rossi@unipg.it

Michela Meschini, Università di Perugia (Italia)

Ingegnere, Architetto e PhD, è Docente a contratto di Disegno e si occupa di disegno dell’architettura, rappresentazione digitale, rilievo e BIM, con particolare attenzione al patrimonio costruito.
E-mail: michela.meschini@unipg.it

Riferimenti bibliografici

Aher, M., Arriaga, R. I. and Kalai, A. T. (2023), “Using large language models to simulate multiple humans and replicate human subject studies”, in Proceedings of the 45th Annual Meeting of the Cognitive Science Society, Sydney, Australia, July 26-29, 2023, pp. 1-43. [Online] Available at: doi.org/10.48550/arXiv.2208.10264 [Accessed 30 September 2025].

Ajanovic, A., Sayer, M. and Haas, R. (2022), “The economics and the environmental benignity of different colors of hydrogen”, in International Journal of Hydrogen Energy, vol. 47, issue 57, pp. 24136-24154. [Online] Available at: doi.org/10.1016/j.ijhydene.2022.02.094 [Accessed 30 September 2025].

Albers, J. (1963), Interaction of Color, Yale University Press, New Haven.

Arcos, J. M. M. and Santos, D. M. F. (2023), “Hydrogen Colour Spectrum – Techno-Economic Analysis of the Available Technologies for Hydrogen Production”, in Gases, vol. 3, issue 1, pp. 25-46. [Online] Available at: doi.org/10.3390/gases3010002 [Accessed 30 September 2025].

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 September 2025].

Bertin, J. (1983), Semiology of Graphics – Diagrams, networks, maps, University of Wisconsin Press, Madison.

Binz, M. and Schulz, E. (2023), “Using cognitive psychology to understand GPT-3”, in PNAS | Proceeding of the National Academy of Sciences of the United States of America, vol. 120, issue 6, article e2218523120, pp. 1-10. [Online] Available at: doi.org/10.1073/pnas.2218523120 [Accessed 30 September 2025].

Boretti, A. (2021) “White is the color of hydrogen from concentrated solar energy and thermochemical water splitting cycles”, in International Journal of Hydrogen Energy, vol. 46, issue 39, pp. 20790-20791. [Online] Available at: doi.org/10.1016/j.ijhydene.2021.03.178 [Accessed 30 September 2025].

Capra, F. and Luisi, P. L. (2014), The Systems View of Life – A Unifying Vision, Cambridge University Press, Cambridge (NY).

Casiddu, N., Burlando, F. and Chen, B. (2024), “Human-de-centred design – Verso una (nuova) era della sofferenza | Human-de-centred Design – Towards a (new) era of suffering”, Agathón | International Journal of Architecture, Art and Design, vol. 16, pp. 242-249. [Online] Available at: doi.org/10.19229/2464-9309/16212024 [Accessed 30 September 2025].

Chew, Y. E., Cheng, X. H., Loy, A. C. M., How, B. S. and Andiappan, V. (2023), “Beyond the Colours of Hydrogen – Opportunities for Process Systems Engineering in Hydrogen Economy”, in Process Integration and Optimization for Sustainability, vol. 7, Springer, Cham, pp. 941-950. [Online] Available at: doi.org/10.1007/s41660-023-00324-z [Accessed 30 September 2025].

Confindustria (2021), Piano d’Azione per l’Idrogeno – Settembre 2020. [Online] Available at: public.confindustria.it/repository/2025/06/09121127/documenti-piano-dazione-per-lidrogeno-PositionPaper_Pianodazioneperlidrogeno_ott2020_Confindustria.pdf [Accessed 30 September 2025].

Davoodabadi, A., Mahmoudi, A. and Ghasemi, H. (2021), “The potential of hydrogen hydrate as a future hydrogen storage medium”, in iScience, vol. 24, issue 1, article 101907, pp. 1-35. [Online] Available at: doi.org/10.1016/j.isci.2020.101907 [Accessed 30 September 2025].

Di Giuseppe, A. and Gambelli, A. M. (2024), “CO2 Storage in Deep Oceanic Sediments in the form of Hydrates – Energy Evaluation and Advantages Related to the Use of N2-Containing Mixtures”, in Energies, vol. 17, issue 16, article 4102, pp. 1-17. [Online] Available at: doi.org/10.3390/en17164102 [Accessed 30 Settembre 2025].

European Commission (2022), 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 – REPowerEU Plan, document 52022DC0230, COM/2022/230 final. [Online] Available at: eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX:52022DC0230 [Accessed 30 September 2025].

European Commission (2021a), Communication from the Commission to the European Parliament, the Council, the European Economic and Social Committee and the Committee of the Regions – Fit for 55 – Delivering the EU’s 2030 climate target on the way to climate neutrality, document 52021DC0550, COM/2021/550 final. [Online] Available at: eur-lex.europa.eu/legal-content/EN/TXT/?uri=celex:52021DC0550 [Accessed 16 September 2025].

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 – A Hydrogen Strategy for a Climate-neutral Europe, document 52020DC0301, COM/2020/301 final. [Online] Available at: eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX%3A52020DC0301 [Accessed 15 March 2024].

European Commission (2019), 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 September 2025].

European Parliament and Council (2023), Directive (EU) 2023/2413 of the European Parliament and of the Council of 18 October 2023 amending Directive (EU) 2018/2001, Regulation (EU) 2018/1999 and Directive 98/70/EC as regards the promotion of energy from renewable sources, and repealing Council Directive (EU) 2015/652, document 32023L2413, PE/36/2023/REV/2. [Online] Available at: data.europa.eu/eli/dir/2023/2413/oj [Accessed 30 September 2025].

European Parliament and Council (2018), Directive (EU) 2018/2001 of the European Parliament and of the Council of 11 December 2018 on the promotion of the use of energy from renewable sources, document 32018L2001, PE/48/2018/REV/1. [Online] Available at: data.europa.eu/eli/dir/2018/2001/oj [Accessed 30 September 2025].

Fairchild, M. D. (2013), Color Appearance Models, John Wiley & Sons, Chichester.

Falcinelli, R. (2017), Cromorama – Come il colore ha cambiato il nostro sguardo, Einaudi, Torino.

Gage, J. (1999), Colour and Meaning – Art, Science and Symbolism, University of California Press, Berkley and Los Angeles.

Gambelli, A. M., Rossi, F. and Gigliotti, G. (2025), “Measure of the Hydrate-Liquid-Gas Phase Boundary Thermodynamic Conditions for Ethane within a Pure Quartz Porous Sand – Differences from the Ideal Equilibrium Associated to the Sediment”, in Heat Transfer Research, vol. 56, issue 15, pp. 43-56. [Online] Available at: doi.org/10.1615/HeatTransRes.2025057469 [Accessed 30 September 2025].

Gambelli, A. M., Rossi, F. and Gigliotti, G. (2024), “Cold Energy Storage via Hydrates Production with Pure CO₂ and CO₂/N₂ (70/30 and 50/50 vol%) Mixtures – Quantification and Comparison between Energy Stored and Energy Spent”, in Energies, vol. 17, issue 9, article 2211, pp. 1-12. [Online] Available at: doi.org/10.3390/en17092211 [Accessed 30 September 2025].

Giampaoli, D., Parodi, G., Cipollini, F., Vattakunnel, S., Gambelli, A. M. and Oneto, L. (2025), “Partial Knowledge Predictive Models for Hydrocarbon Storage”, in Pereira, A., Fernandes, F. P., Coelho, J. P., Teixeira, J. P., Lima, J., Pacheco, M. F., Oneto, L. and Lopes, R. P. (eds), Optimization, Learning Algorithms and Applications, Springer, Cham, pp. 67-82. [Online] Available at: doi.org/10.1007/978-3-032-00140-5_5 [Accessed 30 September 2025].

Governo Italiano (2023), Piano Nazionale di Ripresa e Resilienza – #NextGenerationItalia. [Online] Available at: mimit.gov.it/images/stories/documenti/PNRR_Aggiornato.pdf [Accessed 30 September 2025].

Heller, E. (2009), Psychologie de la couleur – Effets et symboliques, Pyramyd, Paris.

Hickel, J. (2017), The Divide – A Brief Guide to Global Inequality and its Solutions, Random House, London.

IEA – International Energy Agency (2021), Global Hydrogen Review 2021. [Online] Available at: iea.org/reports/global-hydrogen-review-2021 [Accessed 30 September 2025].

IEA – International Energy Agency (2019), The Future of Hydrogen – Seizing Today’s Opportunities. [Online] Available at: iea.org/reports/the-future-of-hydrogen [Accessed 30 September 2025].

IPCC – Intergovernmental Panel on Climate Change (2023), Climate Change 2023 – Synthesis Report – Contribution of Working Groups I, II and III to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change. [Online] Available at: doi.org/10.59327/IPCC/AR6-9789291691647 [Accessed 30 September 2025].

Itten, J. (1961), The Art of Color – The subjective experience and objective rationale of color, Van Nostrand Reinhold, New York.

Jordan, M. I. and Mitchell, T. M. (2015), “Machine learning – Trends, perspectives, and prospects”, in Science, vol. 349, issue 6245, pp. 255-260. [Online] Available at: doi.org/10.1126/science.aaa8415 [Accessed 30 September 2025].

Kress, G. and van Leeuwen, T. (2020), Reading Images – The Grammar of Visual Design, Routledge, London. [Online] Available at: doi.org/10.4324/9781003099857 [Accessed 30 September 2025].

Kusoglu, A. (2022), “(Re)Defining Clean Hydrogen – From Colors to Emissions”, in The Electrochemical Society Interface, vol. 31, issue 47, pp. 47-51. [Online] Available at: doi.org/10.1149/2.F08224IF [Accessed 30 September 2025].

Luo, X., Rechardt, A., Sun, G., Nejad, K. K., Yáñez, F., Yilmaz, B., Lee, K., Cohen, A. O., Borghesani, V., Pashkov, A., Marinazzo, D., Nicholas, J., Salatiello, A., Sucholutsky, I., Minervini, P., Razavi, S., Rocca, R., Yusifov, E., Okalova, T., Gu, N., Ferianc, M., Khona, M., Patil, K. R., Lee, P.-S., Mata, R., Myers, N. E., Bizley, J. K., Musslick, S., Bilgin, I. P., Niso, G., Ales, J. M., Gaebler, M., Murty, N. A. R., Loued-Khenissi, L., Behler, A., Hall, C. M., Dafflon, J., Bao, S. D. and Love, B. C. (2025), “Large language models surpass human experts in predicting neuroscience results”, in Nature Human Behaviour, vol. 9, pp. 305-315. [Online] Available at: doi.org/10.1038/s41562-024-02046-9 [Accessed 30 September 2025].

Lupton, E. (2017), Design Is Storytelling, Cooper Hewitt, Smithsonian Design Museum, New York.

Manzini, E. (2015), Design, When Everybody Designs – An Introduction to Design for Social Innovation, MIT Press, Cambridge (MA). [Online] Available at: doi.org/10.7551/mitpress/9873.001.0001 [Accessed 30 September 2025].

Marjieh, R., Sucholutsky, I., van Rijn, P., Jacoby, N., Griffiths, T. L. (2024), “Large language models predict human sensory judgments across six modalities”, in Scientific Reports, vol. 14, article 21445, pp. 1-12. [Online] Available at: doi.org/10.1038/s41598-024-72071-1 [Accessed 30 September 2025].

MASE – Ministero dell’Ambiente e della Sicurezza Energetica (2023a), Investimento 3.5 – Ricerca e sviluppo sull’idrogeno. [Online] Available at: mase.gov.it/portale/investimento-3-5-ricerca-e-sviluppo-sull-idrogeno [Accessed 30 September 2025].

MASE – Ministero dell’Ambiente e della Sicurezza Energetica (2023b), Piano Nazionale Integrato per l’Energia e il Clima. [Online] Available at: mase.gov.it/portale/documents/d/guest/pniec_2023-pdf [Accessed 2 September 2025].

MISE – Ministero dello Sviluppo Economico (2020), Strategia Nazionale Idrogeno – Linee Guida Preliminari. [Online] Available at: mimit.gov.it/images/stories/documenti/Strategia_Nazionale_Idrogeno_Linee_ guida_preliminari_nov20.pdf [Accessed 30 September 2025].

Noussan, M., Raimondi, P. P., Scita, R. and Hafner, M. (2021), “The role of green and blue hydrogen in the energy transition – A technological and geopolitical perspective”, in Sustainability, vol. 13, issue 1, article 298, pp. 1-26. [Online] Available at: doi.org/10.3390/su13010298 [Accessed 30 September 2025].

Ocenic, E.-L. (2023), “Harmonizing Hydrogen Colour Codes – Need for an Economic Policy Framework for a Global Hydrogen Market”, in Ovidius University Annals | Economic Sciences Series, vol. 28, issue 1, pp. 458-465. [Online] Available at: stec.univ-ovidius.ro/html/anale/RO/2023-i1/Section%203/29.pdf [Accessed 30 September 2025].

Ocenic, E. and Tanțău, A. (2023), “Redefining the Hydrogen ‘Colours’ based on Carbon Dioxide Emissions – A New Evidence-Based Colour Code”, in Proceedings of the International Conference on Business Excellence, vol. 17, issue 1, pp. 111-121. [Online] Available at: doi.org/10.2478/picbe-2023-0013 [Accessed 30 September 2025].

Paltsev, S., Morris, J., Kheshgi, H. and Herzog, H. (2021), “Hard-to-abate sectors – The role of industrial Carbon Capture and Storage (CCS) in emission mitigation”, in Applied Energy, vol. 300, article 117322, pp. 1-11. [Online] Available at: doi.org/10.1016/j.apenergy.2021.117322 [Accessed 30 September 2025].

Raworth, K. (2017), Doughnut Economics – Seven Ways to Think Like a 21st-Century Economist, Chelsea Green Publishing, Vermont.

Rawsthorn, A. and Antonelli, P. (2022), Design Emergency – Building a Better Future, Phaidon Press, London and New York.

Reitsma, A. (2023), European Hydrogen Valleys – An Energy Security Perspective, Doctoral Thesis, University of Groningen, Netherlands. [Online] Available at: heavenn.org/wp-content/uploads/2023/07/Master-thesis_AnniekReitsma_European-Hydrogen-Valleys_an-energy-security-perspective_1-gecomprimeerd.pdf [Accessed 30 September 2025].

Sachs, J. D. (2019), The Ages of Globalization – Geography, Technology, and Institutions, Columbia University Press, New York. [Online] Available at: doi.org/10.7312/sach19374 [Accessed 30 September 2025].

Tufte, E. R. (2006), Beautiful Evidence, Graphics Press, Cheshire.

UN – United Nations (2015), Transforming our World – The 2030 Agenda for Sustainable Development. [Online] Available at: sdgs.un.org/2030agenda [Accessed 2 September 2025].

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”, 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 September 2025].

Veluswamy, H. P., Kumar, R. and Linga, P. (2014), “Hydrogen storage in clathrate hydrates – Current state of the art and future directions”, in Applied Energy, vol. 122, pp. 112-132. [Online] Available at: doi.org/10.1016/j.apenergy.2014.01.063 [Accessed 30 September 2025].

Vezzoni, R. (2024), “How clean is the hydrogen economy? – Tracing the connections between hydrogen and fossil fuels”, in Environmental Innovation and Societal Transitions, vol. 50, article 100817, pp. 1-16. [Online] Available at: doi.org/10.1016/j.eist.2024.100817 [Accessed 30 September 2025].

Vivanco-Martín, B. and Iranzo, A. (2023), “Analysis of the European Strategy for Hydrogen – A Comprehensive Review”, in Energies, vol. 16, issue 9, article 3866, pp. 1-36. [Online] Available at: doi.org/10.3390/en16093866 [Accessed 30 September 2025].

W3C – World Wide Web Consortium (2025), Web Content Accessibility Guidelines (WCAG) 2.1. [Online] Available at: w3.org/TR/WCAG21/ [Accessed 30 September 2025].

Ware, C. (2004), Information Visualization – Perception for Design, Morgan Kaufmann, San Francisco (CA).

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 September 2025].