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Green Hydrogen for Hard-to-Abate Supply Chains: A Scenario-Based Decision Framework

Author

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  • Silvia Bruzzi

    (Department of Economics, University of Genova, Via Vivaldi 5, 16126 Genova, Italy)

  • Elena Tànfani

    (Department of Economics, University of Genova, Via Vivaldi 5, 16126 Genova, Italy)

Abstract

Background : Interest in green hydrogen (GH) is increasing, as it can act both as an energy carrier and as an industrial feedstock to decarbonise applications that currently rely on fossil-based (grey) hydrogen. Hard-to-abate industries, such as steelmaking, face complex and multi-dimensional uncertainties when assessing conversion to GH and the associated supply chain redesign. Materials and Methods : We propose an enterprise-oriented decision-modelling framework that structures conversion drivers into six decision-relevant dimensions (socio-economic, infrastructure, technology, market, supply chain, and enterprise). The framework is refined through a two-round expert elicitation process and operationalised through a scenario planning workflow based on discrete key-factor projections and an elicited interdependency network. Building on this dependency structure, we propose a transparent consistency-based reduction approach that integrates pairwise projection compatibility and graph-guided screening to identify internally coherent and decision-relevant scenarios. The procedure is further demonstrated through an illustrative steelmaking conversion case. Results : The expert-supported workflow identifies 14 external key factors and their decision-relevant projections, together with an elicited interdependency structure among them. The illustrative application shows how an initial scenario space of 6561 configurations, based on eight selected key factors, can be screened to 1335 internally admissible configurations and consolidated into four representative scenarios. These scenarios capture distinct decision contexts, including coordinated acceleration, demand-led but infrastructure-constrained transition, technology and policy push with limited market pull, and fragmented, delayed transition. Conclusions : The approach enhances methodological transparency in scenario-based decision support and offers hard-to-abate industries a structured basis for evaluating green hydrogen conversion under systemic interdependencies and deep uncertainty. The illustrative application further demonstrates how the framework can transform combinatorial uncertainty into a compact and interpretable set of scenarios supporting stakeholder discussion and strategic decision-making.

Suggested Citation

  • Silvia Bruzzi & Elena Tànfani, 2026. "Green Hydrogen for Hard-to-Abate Supply Chains: A Scenario-Based Decision Framework," Sustainability, MDPI, vol. 18(11), pages 1-22, June.
  • Handle: RePEc:gam:jsusta:v:18:y:2026:i:11:p:5740-:d:1960312
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