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Site Selection for Underground Hydrogen Storage in Porous Media: Critical Review and Outlook

Willemijn A. van Rooijen, Hadi Hajibeygi

2025Energy & Fuels13 citationsDOIOpen Access PDF

Abstract

Underground hydrogen storage in porous media is promising for large-scale energy storage. However, its technical and financial effectiveness is heavily dependent on a reliable site selection strategy. In this review, we critically assess the available literature across disciplines to identify the most influential criteria for reliable site selection. Drawing from this evaluation, we propose a systematic, multidisciplinary framework for early stage reservoir screening, integrating key criteria from reservoir performance, geomechanics and containment, location and techno-economics, and biogeochemistry. Our framework allows for rapid identification and ranking of the most suitable reservoirs by proposing 11 elimination criteria and 15 screening criteria. The presented framework consists of practically applicable and scientifically grounded criteria to support consistent, early stage decisions based on readily available data while allowing for detailed site-specific analysis in later project development phases. By unifying diverse disciplinary insights into a structured methodology, this study contributes to more informed, inclusive, and effective site selection.

Topics & Concepts

Multidisciplinary approachSite selectionSelection (genetic algorithm)Ranking (information retrieval)Identification (biology)Computer scienceRisk analysis (engineering)Key (lock)GeomechanicsEnvironmental scienceSystems engineeringReservoir simulationHydrogen storageFoundation (evidence)Porous mediumScope (computer science)Operations researchFossil fuelPetroleum engineeringBiochemical engineeringLead (geology)Conceptual frameworkStage (stratigraphy)Material selectionProcess engineeringCO2 Sequestration and Geologic InteractionsHydraulic Fracturing and Reservoir AnalysisGeothermal Energy Systems and Applications