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Fuel report
Jun 2026
Global Hydrogen Review 2026 Demand
Global hydrogen demand grew almost 3% in 2025 to surpass 100 Mt, concentrated in traditional uses in industry and refining. The impacts of the conflict in the Middle East render the near-term outlook for current hydrogen applications uncertain, particularly for fertiliser production and trade.Demand for low-emissions hydrogen grew by 20% in 2025, reaching close to 1 Mt. However, sluggish and uncertain policy implementation is failing to address the major barriers to adoption and preventing faster uptake.New offtake agreements for low-emissions hydrogen reached 1.7 Mtpa in 2025, as in 2024. One-fifth of all new agreements were firm…
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Fuel report
Sep 2025
Global Hydrogen Review 2025 Demand
Highlights Global hydrogen demand reached almost 100 Mt in 2024 and is expected to surpass that milestone in 2025. This increase is being driven by demand for industrial products that use hydrogen as a feedstock, rather than being the result of successful implementation of energy and climate policies.Demand is still almost exclusively from established sectors (refining, ammonia, methanol and fossil-based direct reduced iron [DRI]), with demand for new applications (biofuels upgrading, new industrial uses, mobility, power or synthetic fuels) growing but from a very low base – less than 1% of demand.Low-emissions hydrogen use increased by nearly 10…
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Fuel report
Sep 2025
Global Hydrogen Review 2025 Investment and innovation
Highlights Capital spending on low-emissions hydrogen projects reached USD 4.3 billion in 2024, an 80% increase from 2023. Based on recent final investment decisions (FIDs), spending could rise by more than 80% in 2025 to nearly USD 8 billion.In 2024, capital spending was almost evenly split between electrolysis and carbon capture, utilisation and storage (CCUS)-equipped hydrogen production. In 2025, electrolysis is expected to account for 80% of spending but only 56% of production from projects under construction, given its higher capital intensity.Investment in electrolysis-based projects is highest in China and Europe, while the United States allocates a larger share…
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Fuel report
Sep 2025
Global Hydrogen Review 2025 Trade and infrastructure
…Highlights Trade is a major driver of project announcements. Nearly 45% of low-emissions hydrogen from announced production projects is intended for export, exceeding 16 Mtpa H₂-eq by 2030 if all materialise. Yet export-oriented projects are less likely to reach the investment stage, with only 5% having done so. These projects tend to be large scale, lacking off-takers. More than half are in emerging and developing economies, where affordable capital and export infrastructure may be limited.Some governments are supporting the large-scale offtake of low-emissions hydrogen by providing funds for long-term premiums through competitive auctions. However…
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Fuel report
Sep 2025
Global Hydrogen Review 2025 Five key questions about hydrogen
…the world's largest reached 30 MW. In 2025, a 500 MW project was commissioned in China, and Saudi Arabia's NEOM project is targeting 2 GW to be operative by 2027 – a 75-fold increase in just six years. Considering only projects that are operational, under construction or have reached a final investment decision, low-emissions hydrogen production can grow fivefold by 2030, reaching 4.2 million tonnes per year. Technology development is also accelerating at unprecedented speed, with more technologies advancing in readiness levels than in any previous year, particularly in steel, shipping, and aviation applications.While challenges remain – including high…
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Fuel report
Jun 2026
Global Hydrogen Review 2026 Production
Global hydrogen production remains dominated by unabated fossil fuels. Low-emissions hydrogen production reached almost 1 Mt in 2025 and is expected to register record growth in 2026, accounting for more than 1% of global production, strongly concentrated in China, Europe and North America.Installed electrolysis capacity doubled in 2025 to surpass 4 GW, thanks to the commissioning of several large-scale projects in China. More than 2.5 GW are under construction, targeting operation in 2026. Growth is expected mostly in Europe, with 2 GW, but is highly concentrated in a small number of big projects.One large project for production from fossil…
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Report
Oct 2025
Breakthrough Agenda Report 2025 Hydrogen
…innovation and improved manufacturing, but cost declines will depend on the pace of deployment Deployment Renewable and low-carbon hydrogen reached 0.8 Mt in 2024, making up less than 1% of global production.Based on projects with a final investment decision (FID), renewable and low-carbon hydrogen production can reach over 4 Mt by 2030, but they represent only 9% of all announced projects (up from 6% last year). Success statements Governments implement clear rules that set thresholds for acceptable levels of emissions for hydrogen producers and users to be eligible for support schemes, based on International Organization for Standardization (ISO…
- Executive summary
- Power
- Hydrogen
- Road transport
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+ 4 pages
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Commentary
27 Mar 2026
Policy and financing momentum sustain CCUS progress despite setbacks
…operating in Norway. Major projects were also commissioned in China and North America, and the construction of new facilities began in eight countries worldwide. The newest annual update to the IEA’s CCUS Project Database – which incorporates developments between the first quarter of 2025 and the first quarter of 2026 – found that capture capacity that was operational or under construction during this period was over 10% higher than in the previous Database update, which covered the first quarter of 2024 through the first quarter of 2025. Meanwhile, storage capacity increased by around 25%. In terms of future prospects, the total…
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Commentary
23 Jan 2026
Investment in next-generation geothermal is surging. Policies are key to further growth
…number of shallow geothermal hotspots globally, accounting for only about 1% of global electricity demand today.Next-generation geothermal technology developers are seeking to overcome these limits by drilling deeper and harnessing heat from hard-to-reach reservoirs. Operators can either circulate fluid through fractures that have been induced (through what is known as enhanced geothermal systems) or transfer heat to the surface through closed-loop circuits. These technologies are advancing quickly, potentially enabling economically-viable geothermal development nearly anywhere in the world. The IEA’s Future of Geothermal Energy report, published in late 2024, estimated that with continued technology…