-
Report
May 2025
Cobalt
Outlook for key energy transition minerals This report provides an outlook for demand and supply for key energy minerals including copper, lithium, nickel, cobalt, graphite and rare earth elements. Demand projections encompass both key energy technologies and other uses under different IEA Scenarios. Supply projections are based on a detailed review of all announced projects. They show how today's geographical concentration evolves over time, for both mining and refining and how expected supply compares with primary supply requirements.
-
Fuel report
May 2026
Financing the Modernisation of Power Systems Beyond Coal
The role of transition credits in Southeast Asia Coal is a central component of power systems in Southeast Asia, even as governments have committed to reducing coal‑related emissions. Rapid electricity demand growth, alongside coal’s role in system adequacy, reliability and energy security, complicates efforts to accelerate coal transitions. Recent volatility in international gas markets has reinforced the short‑term economic and security value of existing coal assets, adding complexity to national transition strategies. The region’s young coal fleet also implies substantial long‑term emissions if plants continue operating at current utilisation rates.Against this backdrop, new approaches are being explored…
-
Technology report
Mar 2026
Financing CCUS at Scale
How to Mobilise Private Capital Carbon capture, utilisation and storage (CCUS) is an important area of attention for governments and financiers as both look to balance policy and investment goals. Recent financial investment decisions of major projects show promise in a sector that is gaining momentum, but its future success depends on viable business models and effective risk allocation across the value chain.In this context, Financing CCUS at Scale is the IEA’s latest report on what it takes to move CCUS projects from the drawing board to operation. Building on expert interviews with leading financial institutions, the report…
-
Report
Jun 2025
Jobs
Multiple benefits of Energy Efficiency 2025 Energy efficiency provides multiple benefits. This page explores jobs. Why is energy efficiency important for jobs? Investment in energy efficiency creates jobs in a wide range of occupations and geographic locations. Key facts Around 10 million people work in energy efficiency-related jobs globally, representing nearly 15% of all energy-related jobs. Studies indicate that energy efficiency creates between 4 and 22 jobs per USD 1 million invested, depending on economic structure and energy efficiency measure. By lowering energy spending, energy efficiency also helps foster business growth and competitiveness. Energy efficiency offers a wide array of job opportunities…
-
Report
Jun 2025
Emission reductions
Multiple benefits of Energy Efficiency 2025 Energy efficiency provides multiple benefits. This page explores emission reductions. Why is energy efficiency important for emission reductions? Energy efficiency can reduce emissions of greenhouse gases and air pollutants and make the energy system more sustainable. Key facts Since 2010, efficiency measures avoided energy-related carbon dioxide (CO₂) emissions equivalent to nearly 20% of the global total in 2023. This is more than the entire energy-related emissions of India and the European Union combined. Accelerating efficiency improvements could deliver a third of all energy-related CO₂ emission reductions between now and 2030 in…
-
Policy report
Jun 2025
Multiple Benefits of Energy Efficiency
As energy efficiency continues to gain attention as a key resource for economic and social development across all economies, understanding its real value is increasingly important. The multiple benefits approach seeks to expand the perspective of energy efficiency beyond the traditional measure of energy savings by identifying and measuring its impacts in full bloom.
-
Report
Jun 2025
Health
Multiple benefits of Energy Efficiency 2025 Energy efficiency provides multiple benefits. This page explores health. Why is energy efficiency important for health? Energy efficiency can improve health by creating healthy indoor and outdoor living environments with comfortable temperatures and humidity levels, and improved air quality. Key facts Energy efficiency measures have been linked to improved health, such as fewer respiratory illnesses.Targeted energy efficiency programmes can reduce doctor and hospital visits and save health costs. In New Zealand, a retrofit programme led to a 43% reduction in hospital admissions for respiratory conditions, while a similar programme in Ireland reduced the…
-
Fuel report
Feb 2026
Oil Market Report - February 2026
The IEA Oil Market Report (OMR) is one of the world's most authoritative and timely sources of data, forecasts and analysis on the global oil market – including detailed statistics and commentary on oil supply, demand, inventories, prices and refining activity, as well as oil trade for IEA and selected non-IEA countries. Highlights Global oil demand is forecast to rise by 850 kb/d in 2026, up from 770 kb/d last year. As in 2025, non‑OECD economies will account for the entire increase, with China taking the lead on a country level. Petrochemical feedstock products will represent more…
-
Policy report
Jun 2026
Multiple Benefits of Energy Efficiency for Business
Energy efficiency is often described as the “first fuel” because the cheapest and most secure energy is the energy that is not used. For businesses, this begins with a straightforward benefit: lower energy bills. In many cases, efficiency investments can pay back quickly through reduced energy costs alone. However, the value of energy efficiency extends beyond energy savings.This report builds on the IEA’s work on the multiple benefits of energy efficiency and focusses on how these gains materialise in businesses. Key benefits range from productivity and product quality improvements to brand image or health benefits for employees and…
-
Fuel report
Jun 2025
Assessing emissions from LNG supply and abatement options
Drawing on the latest and best available data, this report provides a comprehensive estimate of greenhouse gas (GHG) emissions across the global liquefied natural gas (LNG) supply chain, including from upstream production, processing, and pipeline transmission to liquefaction, shipping, and regasification. It also discusses the significant emissions reductions that are technically feasible with today’s technologies including through methane abatement, electrification using low-emissions power, process efficiency improvements, and the elimination of routine flaring, as well as carbon capture, utilisation and storage (CCUS) for managing the naturally-occurring CO2 from LNG supply. Introduction Around 550 billion cubic metres (bcm) of natural…