Subsurface carbon dioxide and hydrogen storage for a sustainable energy future

Samuel Krevor (Corresponding author), Heleen de Coninck, Sarah E. Gasda, Navraj Singh Ghaleigh, Vincent de Gooyert, Hadi Hajibeygi, Ruben Juanes, Jerome Neufeld, Jennifer J. Roberts, Floris Swennenhuis

Research output: Contribution to journalReview articlepeer-review

116 Citations (Scopus)

Abstract

Gigatonne scale geological storage of carbon dioxide and energy (such as hydrogen) will be central aspects of a sustainable energy future, both for mitigating CO2 emissions and providing seasonal-based green energy provisions. In this Review, we evaluate the feasibility and challenges of expanding subsurface carbon dioxide storage into a global-scale business, and explore how this experience can be exploited to accelerate the development of underground hydrogen storage. Carbon storage is technically and commercially successful at the megatonne scale, with current projects mitigating approximately 30 Mt of CO2 per year. However, limiting anthropogenic warming to 1.5°C could require gigatonnes of storage per year by 2050, and a scaleup from 2025 approaching rates of deployment that would be historic for energy technology. Scale-up is not limited by geology or engineering. Advances in understanding storage complex geology, subsurface fluid dynamics, and seismic risk underpin new engineering strategies including the development of multi-site, basin scale, storage resource management. Instead economic and societal contraints pose barriers to project development. Underground hydrogen storage, still in development, will face similar issues. Overcoming these barriers with strengthened financial incentives, and programs to address concerns inhibiting public acceptance, will enable the storage of CO2 at climate relevant scales.

Original languageEnglish
Pages (from-to)102-118
Number of pages17
JournalNature Reviews. Earth & Environment
Volume4
Issue number2
DOIs
Publication statusPublished - Feb 2023

Funding

N.S.G. acknowledges support of the CORE Hub, funded by the Natural Environment Research Council of the UK (Grant Ref: NE/V013106/1). J.N. acknowledges funding through the GeoCquest consortium, a BHP-funded collaborative project among the Universities of Cambridge, Stanford and Melbourne. R.J. acknowledges funding from the U.S. Department of Energy (Grant No. DE-SC0018357). S.E.G. acknowledges funding through the Centre for Sustainable Subsurface Resources supported by the Research Council of Norway and industry stakeholders (grant nr. 331841). 2

FundersFunder number
Centre for Sustainable Subsurface Resources
GeoCquest consortium
Research Council of Norway and industry stakeholders331841
U.S. Department of EnergyDE-SC0018357
Natural Environment Research CouncilNE/V013106/1

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