A review of global tidal stream energy resources

Authors

Daniel S. Coles, University of Oxford
Thomas A.A. Adcock, University of Oxford
Andrew Cornett, University of Ottawa
Kevin Haas, Georgia Institute of Technology
Chul H. Jo, Inha University
Hongwei Liu, Zhejiang University
Jon Miles, School of Engineering, Computing and Mathematics
Patxi Garcia Novo, Nagasaki University
Jérôme Thiébot, Normandy University

ORCID

• Daniel S. Coles: 0000-0002-5676-4849

Abstract

This review identifies 426 candidate sites with potentially suitable characteristics for tidal stream energy development, across 19 countries in Europe, the Americas, Asia and Australasia. The most common site assessment quantifies the theoretical resource, which is the maximum amount of total energy that can be extracted. The aggregated theoretical resource estimate, of 1000 TWh/year, from 262 sites (62% of those identified), across 6 countries, is equivalent to 115 GW of continuous annual power. A more informative, albeit less common assessment, considers technical, environmental and economic constraints on energy extraction. New data from UK assessments is presented that indicates relationships between the theoretical and this more practical level of energy extraction, which are used to derive practical levels of electricity generation at other sites across the world. Results indicate a quasi-practical resource of 110 TWh/year from 90 sites (20% of the candidate sites) across the UK, France, Canada, USA, China and New Zealand. When assessed against national/regional electricity production, the UK, Indonesia and New Zealand show the greatest potential to make national-scale electricity supply contributions, whilst France, Canada, USA and China exhibit lower, regional-scale impact potential. Resource estimation is highly sensitive to turbine/array design and practical constraints, and studies adopt a wide range. Consequently, reported P10 and P90 resource estimates can lie 40% above/below their P50 estimate, respectively. Recommendations are made to characterize this sensitivity of the resource to these drivers.

DOI Link

10.1098/rspa.2024.0841

Publication Date

2025-12-17

Publication Title

Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences

Volume

481

Issue

2328

ISSN

1364-5021

Acceptance Date

2025-10-17

Deposit Date

2026-02-16

Funding

D.S.C. acknowledges the support of the UKRI Postdoctoral Fellowship grant no. EP/Y020332/1.

Additional Links

https://www.scopus.com/pages/publications/105028006141

Keywords

practical resource, technical resource, theoretical resource, tidal energy, tidal stream energy, tidal stream power

Recommended Citation

Coles, D., Adcock, T., Cornett, A., Haas, K., Jo, C., Liu, H., Miles, J., Novo, P., & Thiébot, J. (2025) 'A review of global tidal stream energy resources', Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, 481(2328). Available at: 10.1098/rspa.2024.0841