In 2024, three new terminals added an estimated 1.74 billion ft3/d of capacity: New Fortress Energy's Barcarena floating storage and regasification unit (FSRU) with a capacity of 0.75 billion ft3/d, Terminal Gás Sul FSRU (0.50 billion ft3/d), and Compass Gás & Energia's Cosan terminal (0.50 billion ft3/d). Terminals installed prior to 2024 include Sepetiba Bay FSRU (0.36 billion ft3/d), Porto do Açu FSRU (0.74 billion ft3/d), Sergipe FSRU (0.74 billion ft3/d), Bahia FSRU (0.71 billion ft3/d), and Guanabara Bay FSRU (0.80 billion ft3/d).
The Suape FSRU terminal in Pernambuco is under development and scheduled for completion in early 2026 with an expected 0.7 billion ft3/d of capacity.
Strategic drivers for LNG regasification expansion
Brazil’s rapid expansion of LNG regasification capacity is driven by a deliberate integrated LNG-to-power strategy. Each new import facility is paired with large natural gas-fired power plants. For example, at the Barcarena terminal, developers are building the 2.2 gigawatt (GW) Novo Tempo Barcarena power station.
Regulatory mandates have significantly accelerated Brazil’s LNG import capacity growth. In addition to establishing the privatisation of Eletrobras, Federal Law 14,182/2021 required 8 GW of new regionalised natural gas power plant contracting capacity. The New Gas Law (14,134/2021) broke Petrobras’s monopoly over natural gas production, transportation, and distribution, opening terminals to private developers and allowing multiple users to use a terminal to add natural gas to the pipeline system.
Coastal LNG terminals supply natural gas to regions lacking pipeline access and provide flexible backup for a grid heavily reliant on renewable energy. About 80% of Brazil’s electricity is generated from hydropower, wind, and solar. The increased LNG regasification capacity adds flexibility to the country’s integrated power grid, which is particularly susceptible to droughts due to its high dependence on hydropower.
Although hydropower constituted 56% of Brazil's electricity generation in 2024, significant flow reductions during droughts pose a concern that hydro generation may decrease. Although it has not significantly affected hydrogeneration, recent droughts have highlighted system vulnerabilities, with reservoir levels in key regions falling to 29% of capacity in 2024. Natural gas-fired plants, often linked to LNG terminals, typically increase generation during these periods to offset hydropower declines.
Supply dynamics
The US supplied 72% of Brazil’s LNG imports in 2024. Although Brazil primarily procures LNG supplies in global spot markets due to seasonal demand variability, it is shifting toward long-term contracts to achieve price stability. Notable examples include the Centrica-Petrobras agreement with Petrobras for 0.8 million tpy over 15 years starting in 2027 and New Fortress Energy’s long-term industrial contracts with Norsk Hydro’s Alunorte refinery for its Barcarena operations.
In addition to LNG imports, Brazil also imports natural gas from Bolivia and from Argentina via the GASBOL pipeline.
Brazil's domestic natural gas production reached 5.4 billion ft3/d, with offshore fields accounting for 85% of the output. However, 54% of the natural gas produced is reinjected for reservoir pressure maintenance.