A small slowdown in yearly revenues is forecast towards the end of the decade in line with Cornwall Insight’s wholesale power price projections. Image: Lightsource bp.

UK consultancy Cornwall Insight has published projections that profits from battery storage units will rebound by 2026.

The firm’s GB Battery Revenue Forecast shows that, after “an extended period of underperformance”, annual revenues for 2-hour assets are set to increase from around £96/kW in 2025 to £108/kW by 2026. Other durations should experience similar growth, which is attributed to rising wholesale prices, added price volatility and renewables build out over the coming years.

A small slowdown in yearly revenues is forecast towards the end of the decade in line with Cornwall Insight’s wholesale power price projections alongside greater battery storage market saturation. Those levels will sit above where they currently are, however.

Lead analyst at Cornwall Insight Joe Camish said: “After a challenging period for battery asset owners in GB, we are forecasting a recovery in battery storage revenues over the next two years. This will be encouraging news for investors and asset owners, signalling a more robust and sustainable future for battery storage investments for the remainder of the decade.  

“This has been underscored by our recent modelling in which revenue levels are projected to remain above current levels, supported by greater wholesale price volatility in the late 2020s.”

UK battery revenues hit a peak in August, according to analysis by Modo Energy, which reported that battery energy storage systems (BESS) earned the second highest daily total revenue in 2024 so far, reaching a high of £250/MW, on 21 August.

So far in 2024, Britain has seen prices fall below zero for a total of 147 hours – 44 more than the entire of 2023. Modo Energy forecasts that negative-priced hours will total 188 hours by the end of the year. This rise in negative-priced periods contributed to a rise in BESS revenues for late August.

The full version of this article can be found on our sister site, Current±.