-
Flagship report
Mar 2026
Energy Technology Perspectives 2026 Energy technology manufacturing and trade
Recent trends Global investment in manufacturing capacity for six clean energy technologies – solar photovoltaic (PV), wind, batteries, electric vehicles (EVs), electrolysers and heat pumps – dropped below USD 200 billion in 2024, down from nearly USD 220 billion in 2023. This downwards trend is estimated to have continued in 2025, mainly due to weaker solar PV and wind manufacturing investment in China. The United States and the European Union are estimated to have accounted for around 30% of global manufacturing investment combined in 2025, up from 15% in 2023, marginally increasing global supply chain diversification. After dipping in 2024, global trade in clean energy technologies recovered in…
-
Country
Philippines
The Philippines has made significant progress in delivering electricity access, boosting the household electrification rate past 90% in 2016. The country is on track to meet the target of achieving universal electrification by 2022, as set out in the Philippine Development Plan 2017-2022.
- Overview
- Energy mix
- Emissions
- Electricity
-
+ 5 pages
-
Fuel report
Dec 2022
Renewables 2022 Renewable electricity
Forecast summary The global energy crisis is pushing the accelerator on renewable energy expansion Global renewable capacity is expected to increase by almost 2 400 GW (almost 75%) between 2022 and 2027 in the IEA main-case forecast, equal to the entire installed power capacity of the People’s Republic of China (hereafter “China”). Renewables growth is propelled by more ambitious expansion policies in key markets, partly in response to the current energy crisis. This 85% acceleration on the last five years’ expansion rate results primarily from two factors. First, high fossil fuel and electricity prices resulting from the global energy…
-
Fuel report
Feb 2026
Electricity 2026 Emissions
CO2 emissions from electricity generation are forecast to plateau through 2030 In 2025, global emissions from electricity generation remained flat, after increasing 1.5% and 1.4% in in the previous two years, respectively. Even with strong gains in electricity demand, growth in power sector emissions is showing marked signs of slowing down as fossil-fired generation is constrained by the rapid deployment of renewables and rising nuclear power generation. As this trend continues, we forecast global emissions from power generation to plateau over our 2026-2030 outlook period due to significant increases in clean energy sources, despite electricity demand…
- Executive summary
- Demand
- Supply
- Grids
-
+ 4 pages
-
Commentary
23 Jan 2026
Investment in next-generation geothermal is surging. Policies are key to further growth
Next-generation geothermal readies for take-off Next-generation geothermal is seeing a burst of financing, innovation and new supply agreements Geothermal energy harnesses naturally occurring heat found beneath the Earth’s surface to provide heating and cooling, electricity and energy storage. As global electricity demand rises and power systems place a growing premium on firm supply, geothermal energy’s ability to provide an around-the-clock, low-emissions source of power is attracting renewed attention. However, easy-to-access conventional geothermal resources are relatively rare and mostly confined to a small number of shallow geothermal hotspots globally, accounting for…
-
Country
Madagascar
Around a quarter of the population of Madagascar has access to electricity, and only 1.5% has access to clean cooking facilities. In 2019, Madagascar’s energy mix was dominated by biofuels and wastes (85%), with oil products (11%), coal and hydro accounting for the rest of the total energy supply. In 2020, less than 5% of the population had access to clean cooking and 27% had access to electricity. The Government of Madagascar has set a target of reaching 70% electricity access rate by 2030.
- Overview
- Energy mix
- Emissions
- Electricity
-
+ 5 pages
-
Country
Estonia
Estonia has achieved a notable reduction in greenhouse gas emissions thanks mainly to lowering its reliance on electricity generation from domestic oil shale, an energy rich sedimentary rock. However, oil shale remains the main energy source and imported fossil fuels still plan a major role, especially in transport. Estonia’s forests, which historically offset significant greenhouse gas emissions, have become a net emissions source. Estonia is aiming to accelerate its clean energy transition with a target to cover 100% of annual electricity demand with renewables by 2030 as part of a larger package to achieve climate neutrality by 2050. It…
- Overview
- Energy mix
- Emissions
- Electricity
-
+ 5 pages
-
Country
Tajikistan
Hydropower is the main source of energy in Tajikistan, followed by imported oil, gas and coal. However, Tajikistan's energy sector is prone to supply shocks, due to seasonal shortages. Energy policy focuses on providing uninterrupted energy access to all users while improving regional co‑operation and energy sector efficiency, but significant domestic and foreign investment will be necessary for continued energy sector development. Tajikistan is part of the EU4Energy Programme, an initiative focused on evidence-based policymaking for the energy sector.
- Overview
- Energy mix
- Emissions
- Electricity
-
+ 5 pages
-
Flagship report
Jun 2025
World Energy Investment 2025 European Union
Energy investment in the European Union has shifted over the past decade to low-emissions generation. Grid investment is key to EU price convergence and market stability In the past decade, the European Union (EU) has increased its commitment to clean energy, with investment reaching almost USD 390 billion in 2025. Investment in low-emissions electricity was driven by the global energy crisis that followed Russia’s full-scale invasion of Ukraine in 2022, subsequent favourable policy incentives and the declining cost of renewable technologies. In 2024 renewables generated 50% of electricity used in the EU, while fossil fuels accounted…
-
Report
Jun 2025
Competitiveness
Multiple benefits of Energy Efficiency 2025 Energy efficiency provides multiple benefits. This page explores competitiveness. Why is energy efficiency important for competitiveness? Increasing energy efficiency can improve competitiveness at both the firm level – by reducing costs, improving operations and increasing product value – and at the country level, by reducing the amount of energy required to produce economic output. Key facts Today the world’s industries produce nearly 20% more value added with a given amount of energy, compared with two decades ago. In the industrial sector, energy management can lead to more than 10% in annual energy cost savings within…