Biogeochemical Responses and Microbial Community Dynamics Responding to Experimental Hydrogen Storage Conditions Article Swipe

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Winston Anthony , Izabel Stohel , Kara Tinker , Daniel E. Ross , Djuna Gulliver , Christopher E. Bagwell ·

YOU? · · 2024 · Open Access · · DOI: https://doi.org/10.2172/2511379 · OA: W4407364913

Hydrogen has been identified as a flexible energy carrier with zero or negative carbon emission across multiple energy sectors. There is tremendous capacity for deep geologic storage of H2 but many aspects of feasibility, reliability, safety and the potential for unintended consequences need to be examined. As part of a larger programmatic effort to address the knowledge gaps, we aim to gain a better understanding of reservoir microbial communities and their metabolic and biogeochemical responses to hydrogen storage conditions. In this study we collected and characterized reservoir brine from candidate hydrogen storage sites in the southwestern U.S. for use in a temporal reactor series under blended storage conditions (40% H2, 40% CH4, 20% CO2) at reservoir temperature (60°C).