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Flagship report
Apr 2025
Energy and AI Executive summary
The transformative potential of AI depends on energy There has been a step change in the capabilities of artificial intelligence (AI), driven by falling computation costs, a surge in data availability and technical breakthroughs. AI is the science of making machines capable of learning to perform tasks that traditionally required human intelligence. AI is emerging as a general-purpose technology, much like electricity. Today, it can generate text and videos, accelerate scientific discovery in fields like medicine or materials science, make manufacturing robots smarter and more productive, drive commercial taxis in complex city landscapes, and detect threats to critical infrastructure…
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Fuel report
Oct 2025
Gas 2025 Executive summary
The coming LNG wave is set to profoundly transform the global gas market Following the supply shock of 2022/23, natural gas markets moved towards a gradual rebalancing in 2024 and 2025. During this period, supply fundamentals remained tight and prices stayed well above their historic levels. This limited demand growth, especially in price-sensitive Asian markets.Around 300 billion cubic metres per year of new liquefied natural gas (LNG) export capacity is expected to be added worldwide by 2030, primarily supported by liquefaction capacity expansions in the United States and Qatar. This wave of new LNG production capacity is…
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Policy report
Jun 2026
Multiple Benefits of Energy Efficiency for Business Turning the opportunity into reality
Across sectors, the evidence consistently shows that the value of energy efficiency extends far beyond energy savings, often matching or even exceeding them.A key challenge is that much of this value is not systematically captured in investment decisions. Business cases are often built on energy savings alone, overlooking gains in productivity, resource efficiency, product quality, brand reputation and workforce health. Reflecting these wider benefits can significantly strengthen investment cases and improve how efficiency projects compete for capital.This report draws on available evidence to highlight these broader benefits and why they matter in practice. The steps below show how…
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Flagship report
Nov 2025
World Energy Outlook 2025 Current Policies Scenario
Expanding the world we know Total final consumption rises in the Current Policies Scenario (CPS) by around 1.3% each year over the next decade, similar to the average annual increase over the last decade: global industrial output, appliance ownership and demands for mobility all increase, while energy efficiency gains are modest. Demand for oil rises to 113 million barrels per day by 2050, mainly due to its increased use in emerging market and developing economies for road transport, petrochemical feedstocks, and aviation. Electric vehicle (EV) uptake stalls in regions lacking strong policy support: China and Europe are the main exceptions…
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Flagship report
Apr 2025
Energy and AI AI and climate change
The emergence of AI has both raised concerns that AI-fuelled data centre growth might fuel climate change and also raised expectations that AI applications in the energy sector could help reduce emissions by unlocking new optimisations and efficiencies. As over 100 countries – and the European Union – have targets to reach net zero emissions between 2030 and 2070, it is pertinent to explore what AI’s impact on emissions could potentially be. Global fuel combustion CO2 emissions are estimated to reach 35 000 million tonnes (Mt) in 2024. Data centres account for around 180 Mt of indirect CO2 emissions today from the consumption…
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Flagship report
Apr 2026
Global Energy Review 2026 Global trends
Demand for all fuels and technologies grew in 2025 Global energy demand grew by 1.3%, or 8 exajoules (EJ), in 2025. This represents a notable slowdown in energy demand growth from 2024, when it increased by 2%. A range of factors explain this. Firstly, although the global economic expansion remained robust, the rate of growth was slightly slower than in 2024, with slower growth in energy-intensive industries in some regions. Secondly, lower temperatures relative to 2024 led to lower cooling demand. Thirdly, energy intensity improvements accelerated.All energy sources contributed to meeting global energy demand growth in 2025…
- Key findings
- Global trends
- Oil
- Natural gas
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+ 9 pages
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Fuel report
Mar 2026
Sheltering From Oil Shocks Cooking fuels
LPG demand accounts for around 10% of global oil demand and is used by many households for cooking. The conflict has caused major disruptions to LPG supply chains. With natural gas processing operations halted in parts of the region and flows through the Strait of Hormuz having come to a standstill, LPG supplies for cooking use have been severely curtailed, both locally and at export destinations. Next to measures to free up LPG capacity from other uses, such as in transport or industry, to prioritise domestic use, there are also actions to directly reduce cooking fuel demand. 9. Where possible…
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Contributor
Claude Turmes
Minister for Energy and Minister for Spatial Planning. Claude Turmes was appointed Luxembourg’s Minister for Energy and Minister for Spatial Planning in December 2018. He previously held the position of Secretary of State for Sustainable Development and Infrastructures. He was a member of the European Parliament for almost 20 years, serving as rapporteur for the Energy Efficiency Directive and the Renewable Energy Directive.
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Policy report
Jun 2026
Multiple Benefits of Energy Efficiency for Business Health and well-being
Energy efficiency can improve working conditions, increase employee productivity and reduce sick leave Energy efficiency improvements can enhance working environments and worker health. By reducing waste heat, air pollutants and other process inefficiencies, they lower health and safety risks while improving comfort and working conditions.In manufacturing, these effects can be direct. For example, in electronics manufacturing, conventional soldering requires thermal pre-heating cycles that exposes workers to high ambient heat as well as safety risks. Replacing this with induction heating enables localised heating of the material, reducing energy demand by around 70% while eliminating heat stress and safety hazards…