A new study by independent researchers from Imperial College London has found that just 4.5GW of new long-duration pumped hydro storage with 90GWh of storage could save up to £690 million per year in energy system costs by 2050, as the UK transitions to a net-zero carbon emission system.
Commissioned by SSE Renewables via Imperial Consultants, the report focused on the benefits of new long-duration pumped hydro storage in Scotland, as the current most established long-duration energy storage technology. The main benefit of long-duration storage compared to short-duration batteries is being able to continuously charge up the storage with excess renewables and also discharge power to the grid for several hours or days when wind and solar output is low.
In its recent Energy White Paper, the UK Government set out that long-duration storage technologies like pumped hydro, would play an essential role in decarbonising UK’s electricity supply by integrating renewable energy and maintaining security of supply.
In October, SSE Renewables received a revised consent from the Scottish Government for what would be the UK’s largest pumped hydro energy storage scheme – Coire Glas – located near Loch Lochy in the Scottish Highlands.
The proposed 1.5GW (30GWh) Coire Glas scheme would more than double the current amount of pumped hydro storage capacity in Great Britain, providing an invaluable low carbon resource to help cost-effectively manage the fluctuations of the electricity system.
The study, by Imperial’s researchers, found that 75% of the savings to the energy system from projects like Coire Glas would be from the avoided capital expenditure in higher cost electricity generation technologies that would otherwise be needed to meet the UK’s target of carbon neutrality by 2050 whilst meeting security of supply.
Importantly, the report highlighted that despite all of the benefits which new pumped hydro storage projects would bring, the current policy and market framework is unlikely to bring forward investment in many new projects because the long duration and low carbon capability of pumped hydro storage is not sufficiently valued.
“The findings in this report support our view – that pumped hydro storage projects like Coire Glas have a huge role to play in the UK achieving its ambition of net zero carbon emissions by 2050 in the most cost-effective way possible.”
MIKE SEATON, DIRECTOR OF DEVELOPMENT AT SSE RENEWABLES
Mike continued: “Following the recent reconsent of Coire Glas we are now progressing the project through further refinement and studies and believe it could come online by the end of the decade, generating thousands of jobs in the process”
“However, there are commercial hurdles that we still need to overcome if such a large civil engineering project is to become a reality. The current policy and market framework are not yet suitable for attracting investment in such large-scale storage projects, although the UK Government has set out its intention to address those barriers to investment.”