-
Country
Gabon
Almost two-thirds of the population of Gabon has access to electricity. The country can partially rely on its 150 thousand barrels per day hydrocarbon liquids production and has recently implemented a new petroleum legislation.
- Overview
- Energy mix
- Emissions
- Electricity
-
+ 5 pages
-
Report
Nov 2025
Global Energy and Climate Model About the Global Energy and Climate Model
Overview Since 1993, the IEA has provided medium- to long-term energy projections using a continually evolving set of detailed, world-leading modelling tools. First, the World Energy Model (WEM) – a large-scale simulation model designed to replicate how energy markets function – was developed. A decade later, the Energy Technology Perspectives (ETP) model – a technology-rich bottom-up model – was developed for use in parallel to the WEM.Over the past four years, the IEA has worked to develop a new integrated modelling framework: the IEA’s Global Energy and Climate (GEC) Model. This model is now the principal tool…
-
Technology report
Mar 2026
Integrating Variable Renewable Energy in Kenya
Key challenges and strategic priorities Building on its renewable energy success, Kenya is now focused on managing a secure and reliable electricity system. With nearly 90% of the generation mix derived from renewable sources and electricity access rising from 37% in 2013 to 79% in 2025, the country has established itself as a regional leader in energy development.Integrating Variable Renewable Energy in Kenya explores how Kenya can strengthen its power system amid rising shares of variable renewable energy (VRE). The report identifies Kenya’s system to be operating in Phase 3 of the IEA’s VRE integration framework, where…
-
Energy system
Wind
Wind has significant potential to boost growth in global renewable capacity
Electricity generation from renewables is expected to increase by 60% through 2030 – rising from 9 900 terawatt-hours (TWh) in 2024 to 16 200 TWh by the end of the decade. Wind accounts for almost a third of growth, second only to solar PV, which accounts for 60%.
Although wind power continues to face supply chain issues, rising costs and permitting delays today, global capacity is still expected to nearly double to over 2 000 gigawatts (GW) by 2030 as both advanced and developing economies tackle these barriers.
Around…
-
Country
Iraq
Iraq holds abundant oil and gas resources and has strong solar PV potential. Its production to 2030 is set to be third largest contributor to global oil supply. By the same year, the government expects that renewable capacity will amount for 5% of the country’s total system capacity.
- Overview
- Energy mix
- Emissions
- Electricity
-
+ 5 pages
-
Policy report
Jun 2026
Energy Efficiency Policy Toolkit Buildings
Introduction Buildings account for about 30% of final energy consumption globally and more than half of electricity consumption. Doubling the global annual energy intensity improvement by 2030 would require buildings to become more efficient rapidly. An integrated policy approach combining regulation, information and incentives is the most effective way to achieve this goal. Regulatory standards such as building energy codes are among the most effective policies to not only boost energy performance and reduce emissions, but also to improve occupants' health, comfort and productivity – while enhancing climate resilience and mitigating energy price fluctuations. Buildings built after a code is introduced can…
-
Country report
Nov 2025
An Energy Sector Roadmap to Net Zero Emissions in Colombia Executive summary
Colombia is one of the region’s growth success stories Colombia is the third-largest country in Latin America and the Caribbean (LAC) by population, with 53 million inhabitants. Its economy has grown steadily since 1971, even during the “lost decade” experienced by LAC in the 1980s, and with very few exceptions during global crises. GDP has increased by an annual average of 2.4% since 2015, outpacing the regional average of 1.2%. This growth has been accompanied by tangible improvements in indicators of living standards for Colombia’s population: access to clean cooking and electricity have significantly improved, both standing…
-
Technology report
May 2026
Ultra-fast charging batteries
GEVO 2026 - Chapter 8 New power‑electronics materials, battery cell technologies and battery pack architectures are enabling more efficient, higher‑voltage – and therefore faster – charging systems. Advances in batteries and power electronics are improving EV performance Over the past decade, average EV battery pack energy density (Wh/kg) has increased by around 60%, while prices have fallen by roughly 75%. Moreover, in 2023, battery-related patents accounted for 40% of all energy-sector patents, suggesting that more developments are still to come. At the same time, new power‑electronics materials, battery cell technologies and battery pack architectures are enabling more efficient, higher‑voltage – and…
-
Country
Turkmenistan
Turkmenistan’s government is continuously investing in oil and gas, to modernise and expand the electricity and heat sector by 2020. Moreover, the energy sector is almost fully subsidised, with citizens receiving free electricity, heat and gas up to a certain level of consumption, until 2030, but the government is taking steps to reduce subsidies to curb domestic demand and increase exports. Turkmenistan is part of the EU4Energy Programme, an initiative focused on evidence-based policymaking for the energy sector.
- Overview
- Energy mix
- Emissions
- Electricity
-
+ 5 pages
-
Technology report
Jun 2026
Renewables in District Energy Executive summary
District energy is a strategic lever for energy security and emissions reduction District energy supplies around 10% of global final energy consumption for heat. As heating and cooling account for more than half of global end-use energy consumption today, this corresponds to around 5% of total energy consumption. District heating and cooling systems offer an efficient, large-scale solution for energy diversification in areas with sufficiently dense demand. By producing heat or cold centrally and distributing it through insulated networks, district energy systems can integrate diverse energy sources - including renewables - optimise demand management at scale, and support coordinated infrastructure…