A report from energy think tank Ember details how cost reductions in battery storage technology are enabling dispatchable solar power to compete with conventional power sources.
Ember’s assessment draws on data from recent auctions across international markets, including Italy, Saudi Arabia, and India, supplemented by expert interviews conducted in October 2025.
This research indicates the industry is moving into a new environment where scaling of manufacturing capacity and competition have pushed costs down. The cost of core BESS equipment fell by 40% in 2024 compared with 2023, according to BloombergNEF’s global benchmark, reaching a record low of $165 per kWh.
Ember’s October 2025 data said a further large fall in 2025 is on track. Over the last 10 years, installed costs have fallen by 20% per year on average, while deployment has increased by around 80% per year.
According to the findings, the all-in capital expenditure for building a large, long-duration utility-scale battery energy storage system project in global markets outside of the U.S. and China is now approximately $125 per kWh. This figure reflects project pricing, comprising $75 per kWh for core equipment sourced from China, including battery enclosures, the power conversion system (PCS), and energy management system (EMS) and $50 per kWh for local installation, engineering, and grid connection activities.
These capital costs translate into a levelized cost of storage (LCOS) of $65 per MWh. This LCOS reflects the cost of shifting electricity to a different time period.
Ember said this reduction in LCOS is driven by equipment costs and improved performance metrics, such as a 20-year design life for LFP technology, 90% efficiency, and lower project financing costs due to de-risked revenue models. Longer lifetimes, higher efficiency, and lower project risks reduce the LCOS by 35% even before accounting for the falling equipment prices, said the report.
The core implication of this analysis is the economic viability of dispatchable solar.
Storing 50% of a day’s solar output to meet night-time demand adds $33 per MWh to the generation cost. Using the 2024 global average solar price of $43 per MWh, the total cost for dispatchable solar is calculated at $76 per MWh.
This positions dispatchable solar as a cost-effective alternative to new gas power plants, particularly in regions reliant on imported LNG.
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