Issue 2, 2021
From the journal:

Energy & Environmental Science

Enabling large-scale hydrogen storage in porous media – the scientific challenges

Niklas Heinemann,*a   Juan Alcalde, ORCID logo b   Johannes M. Miocic,cd   Suzanne J. T. Hangx,e   Jens Kallmeyer,f   Christian Ostertag-Henning,g   Aliakbar Hassanpouryouzband, ORCID logo a   Eike M. Thaysen,a   Gion J. Strobel,h   Cornelia Schmidt-Hattenberger,f   Katriona Edlmann,a   Mark Wilkinson,a   Michelle Bentham,i   R. Stuart Haszeldine,a   Ramon Carbonellb  and  Alexander Rudloff ORCID logo f  

* Corresponding authors

a School of Geosciences, University of Edinburgh, UK
E-mail: n.heinemann@ed.ac.uk

b Geosciences Barcelona, CSIC, Barcelona, Spain

c Institute of Earth and Environmental Science, University of Freiburg, Germany

d Energy and Sustainability Research Institute Groningen (ESRIG), University of Groningen, The Netherlands

e Department of Earth Sciences, Utrecht University, The Netherlands

f GFZ German Research Centre for Geosciences, Potsdam, Germany

g Federal Institute for Geosciences and Natural Resources, Germany

h Institute of Subsurface Energy Systems, Clausthal University of Technology, Germany

i British Geological Survey, Keyworth, Nottingham, UK

Abstract

Expectations for energy storage are high but large-scale underground hydrogen storage in porous media (UHSP) remains largely untested. This article identifies and discusses the scientific challenges of hydrogen storage in porous media for safe and efficient large-scale energy storage to enable a global hydrogen economy. To facilitate hydrogen supply on the scales required for a zero-carbon future, it must be stored in porous geological formations, such as saline aquifers and depleted hydrocarbon reservoirs. Large-scale UHSP offers the much-needed capacity to balance inter-seasonal discrepancies between demand and supply, decouple energy generation from demand and decarbonise heating and transport, supporting decarbonisation of the entire energy system. Despite the vast opportunity provided by UHSP, the maturity is considered low and as such UHSP is associated with several uncertainties and challenges. Here, the safety and economic impacts triggered by poorly understood key processes are identified, such as the formation of corrosive hydrogen sulfide gas, hydrogen loss due to the activity of microbes or permeability changes due to geochemical interactions impacting on the predictability of hydrogen flow through porous media. The wide range of scientific challenges facing UHSP are outlined to improve procedures and workflows for the hydrogen storage cycle, from site selection to storage site operation. Multidisciplinary research, including reservoir engineering, chemistry, geology and microbiology, more complex than required for CH4 or CO2 storage is required in order to implement the safe, efficient and much needed large-scale commercial deployment of UHSP.

Graphical abstract: Enabling large-scale hydrogen storage in porous media – the scientific challenges

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Article information

DOI
https://doi.org/10.1039/D0EE03536J
Article type
Perspective
Submitted
06 Nov 2020
Accepted
05 Jan 2021
First published
05 Jan 2021
This article is Open Access
Creative Commons BY-NC license

Energy Environ. Sci., 2021,14, 853-864

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Enabling large-scale hydrogen storage in porous media – the scientific challenges

N. Heinemann, J. Alcalde, J. M. Miocic, S. J. T. Hangx, J. Kallmeyer, C. Ostertag-Henning, A. Hassanpouryouzband, E. M. Thaysen, G. J. Strobel, C. Schmidt-Hattenberger, K. Edlmann, M. Wilkinson, M. Bentham, R. Stuart Haszeldine, R. Carbonell and A. Rudloff, Energy Environ. Sci., 2021, 14, 853 DOI: 10.1039/D0EE03536J

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