£100 million investment boost for Coire Glas pumped storage scheme in Scotland

21 March 2023


The planned 150MW Coire Glas scheme in Scotland – billed as Britain’s biggest pumped storage scheme in 40 years – is to receive a £100 million investment boost from developer SSE. 

Located on the shores of Loch Lochy, between Fort William and Inverness, the Coire Glas project is expected to require a capital investment of over £1.5 billion to construct and, if approved for final delivery, would be the first pumped hydro storage scheme to be built in the UK in 40 years.

The project, which received planning consent from the Scottish Government in 2020, would also more than double Britain’s total current electricity storage capacity – providing vital back up to an increasingly renewables-led system and bolstering energy security. SSE hopes to make a final investment decision on Coire Glas in 2024, subject to positive development progress and the prevailing policy environment, and to fully construct and commission the pumped storage scheme by 2031.

SSE’s £100 million commitment to further developing the project comes as the leading low carbon energy infrastructure company awaits the UK Government’s decision on how it intends to financially support the deployment of long-duration electricity storage, as set out in last year’s British Energy Security Strategy.

This could include the introduction by the UK Government of a ‘revenue stabilisation mechanism’ in the form of an adapted Cap and Floor scheme to support investment in long-duration storage. This would also be alongside broader consideration of how the electricity market, including the Capacity Mechanism and the Flexibility Markets, value the contribution of low carbon flexible assets such as pumped storage.

"Today’s announcement is a significant and important milestone on the journey towards delivering the Coire Glas project,” commented Scotland’s Cabinet Secretary for Net Zero, Michael Matheson. “If built, Coire Glas will more than double Britain’s long duration electricity storage capacity – allowing the grid to more flexibly deploy renewable electricity. The Scottish Government has long been supportive of pumped hydro storage capacity, which we believe will play a key role in the energy transition and is a vital component of a more flexible, resilient and secure electricity supply.

“However it is critical that the UK Government puts in place the appropriate market and regulatory arrangements to support the industry’s development as a matter of urgency. Only with a supportive policy environment can this sector realise its full potential."

Gregor Alexander, SSE Finance Director, added: “The £100 million investment we have announced today will help play a crucial role in further advancing the Coire Glas project towards a final investment decision in 2024, which will enable the project to move towards construction. If delivered around the turn of the decade, Coire Glas could play a crucial role in getting the UK to net zero.

“Our investment commitment today also signals a significant down-payment by SSE to keep this critical project moving forwards. And our ability to reach a positive final investment decision will clearly depend on the prevailing policy environment for long duration electricity storage and long-term infrastructure projects more broadly. Whilst Coire Glas doesn’t need subsidy, it does require more certainty around its revenues and it is critically important the UK Government urgently confirms its intention on exactly how they will help facilitate the deployment of such projects"

The next phase of detailed project design and refinement, construction planning and procurement for the project will progress through 2023 and into early 2024. Around half of the £100 million development investment will now be allocated to the pre-construction refinement phase of the Coire Glas project, including a comprehensive package of site investigation works which have now commenced and will complete later this year. These include the construction of a major exploratory tunnel to enable the project team to fully assess the geological conditions that will be encountered in constructing the scheme.

 



Privacy Policy
We have updated our privacy policy. In the latest update it explains what cookies are and how we use them on our site. To learn more about cookies and their benefits, please view our privacy policy. Please be aware that parts of this site will not function correctly if you disable cookies. By continuing to use this site, you consent to our use of cookies in accordance with our privacy policy unless you have disabled them.