
Manya Rathore
Research expert covering India
Global electricity output is set to grow by 50 percent by mid-century, relative to 2022 levels. With renewable sources expected to account for the largest share of electricity generation worldwide in the coming decades, energy storage will play a significant role in maintaining the balance between supply and demand. To support the global transition to clean electricity, funding for the development of energy storage projects is required. Pumped hydro, batteries, hydrogen, and thermal storage are a few of the technologies currently in the spotlight. The global battery industry has been gaining momentum over the last few years, and investments in battery storage and power grids were estimated to have surpassed 450 billion U.S. dollars in 2025.Â
Electricity demand oscillates throughout the year and across the day, usually peaking in the coldest and hottest months of the year and in the busiest hours of the day. By comparison, specific energy sources, such as wind, sun, and water, have their highest power generation potential when the weather conditions are favorable, not necessarily matching hours of peak electricity demand. Energy storage can provide flexibility to the electricity grid, guaranteeing more efficient use of resources. When supply is greater than demand, excess electricity can be fed into storage devices. It can in turn be tapped hours (or sometimes even days) later when demand is greater than supply.
There is a wide range of energy storage technologies available, but they can be divided into five major categories, depending on their working principle: mechanical, electrochemical, thermal, chemical, and electrical. Mechanical technologies, particularly pumped hydropower, have historically been the most widely used large-scale energy storage. Together with sand thermal energy storage, pumped hydro has one of the lowest energy storage costs, below 100 U.S. dollars per kilowatt-hour. By comparison, battery energy ranges between 90 U.S. dollars per kilowatt-hour for sodium-ion batteries and 1,000 U.S. dollars per kilowatt-hour for lithium-ion-titanium-oxide (LTO) batteries.
The global energy storage deployment is expected to grow steadily in the coming decade. Reflecting recent investments, battery energy storage was forecast to double between 2022 and 2030 and reach some 950 gigawatts by 2050, overtaking pumped hydropower. Pumped hydro was projected to increase up to 210 gigawatts by 2030 and stall around this value in the following decades. China dominated both battery manufacturing and pumped hydropower in terms of capacity as of 2024. The economic power had the most ambitious energy storage capacity target in the world, planning to reach some 80 gigawatts by 2025 (excluding hydropower). The deployment of energy storage systems would benefit the decarbonization policy of developing countries, as it would help deal with the challenges in power production and distribution.

Detailed statistics
Projected electricity generation worldwide 1995-2050

Detailed statistics
Global cumulative electric energy storage capacity 2015-2022

Detailed statistics
Energy storage capacity 2030, by world region

Global outlook on electricity generation 2022-2050, by energy source
Projected electricity generation worldwide in 2022 with a forecast to 2050, by energy source (in 1,000 terawatt-hours)

Global primary energy consumption 2000-2050, by energy source
Primary energy consumption worldwide from 2000 to 2023, with a forecast until 2050, by energy source (in exajoules)

Global electricity consumption 1980-2024
Net electricity consumption worldwide in select years from 1980 to 2024 (in terawatt-hours)

Global primary energy consumption 2019-2023
Primary energy consumption worldwide from 2019 to 2023 (in quadrillion British thermal units)

Global additions of energy storage capacity 2014-2024
Annual gross capacity additions of energy storage worldwide in selected years from 2014 to 2024 (in gigawatt-hours)

Energy storage capacity 2030, by world region
Forecast gross energy storage capacity in 2030, by region (in gigawatts)

Global energy storage capacity outlook 2024, by country or state
Leading countries or states ranked by energy storage capacity target worldwide in 2024 (in gigawatts)

Breakdown of energy storage projects deployed globally by sector 2023-2024
Distribution of annual energy storage projects deployed worldwide in 2023, with a forecast for 2024, by sector

Nominal duration of LDES technologies worldwide 2024
Nominal duration of long duration energy storage technologies globally in 2024 (in hours)

Global pure pumped storage capacity 2010-2024
Pure pumped storage hydropower capacity worldwide from 2010 to 2024 (in gigawatts)

Projected global electricity capacity pumped hydro 2022-2050
Installed electricity generation capacity from pumped hydropower worldwide in 2022, with a forecast until 2050 (in gigawatts)

Global pumped storage capacity 2025, by leading country
Capacity of pumped storage hydropower worldwide in 2025, by leading country (in megawatts)

Projected global electricity capacity from battery storage 2022-2050
Installed electricity generation capacity from battery storage worldwide in 2022 with a forecast to 2050 (in gigawatts)

Battery capacity worldwide 2023-2030, by leading country
Battery manufacturing capacity worldwide in 2023, with a forecast for 2027 and 2030, by leading country (in gigawatt-hours)

Battery storage capacity additions worldwide 2024, by end-use sector
Battery storage capacity additions worldwide in 2024, by application (in gigawatts)

Breakdown of global battery energy storage systems market 2021-2024, by technology
Market share of battery energy storage systems worldwide in 2021 and 2024, by technology

Hydrogen industry status quo and needed growth for reaching 1.5°C target 2022-2050
Status quo of hydrogen industry and needed growth for reaching 1.5°C target in 2022 and 2050

Global proposed capacity for green hydrogen production 2025, by company
Net capacity for green hydrogen in the pipeline worldwide in the fourth quarter of 2025, by leading company (in 1,000 tons per annum)

Global production capacity of ammonia 2019 to 2029, by region
Production capacity of ammonia worldwide from 2019 to 2024, with a forecast to 2029, by region (in 1,000 metric tons of nutrient)

Marketed power of thermal energy storage technologies worldwide 2023, by type
Marketed power capacity of selected thermal energy storage technologies worldwide in 2023, by type (in megawatts)

Energy storage cost worldwide, by select technology 2024
Cost of selected energy storage technologies worldwide in 2024 (in U.S. dollars per kilowatt-hour)

Leading global energy storage companies 2024, by funding
Leading energy storage companies worldwide as of June 2024, by total funding (in billion U.S. dollars)

Grids and storage investments worldwide 2015-2025
Clean energy investments in power grids and storage worldwide from 2015 to 2025 (in billion U.S. dollars)

Capital costs for long-duration utility-scale BESS worldwide 2025, by component
Capital expenditure for long-duration utility-scale battery storage worldwide as of October 2025, by component (in USD/kWh)

Installation cost of a battery storage project worldwide 2014-2024
Total installed cost of a battery storage project worldwide from 2014 to 2024 (in U.S. dollars per kWh)
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