- SEFE, Eletrobras, and EnerTech partner to produce 200,000 tons of green hydrogen annually in Brazil by 2030, aiming to meet Europe’s renewable energy needs.
- The project will use renewable energy, including hydropower, to produce green hydrogen, which will be converted to ammonia for export to Germany.
- Brazil’s renewable resources position it as a critical supplier for Europe, with the SEFE-Eletrobras initiative supporting Europe’s climate goals and energy security.
SEFE (Securing Energy for Europe), a German energy firm, has partnered with Brazilian energy giant Eletrobras and Kuwaiti developer EnerTech to produce 200,000 tons of green hydrogen annually by 2030. The project will help meet Europe’s growing renewable energy needs and support its climate targets.
The partnership will build a grid-connected electrolysis plant in Brazil. The plant will use renewable energy, including hydropower, to produce green hydrogen. The project will convert the hydrogen into ammonia, making it easier to transport to Germany for use in the European market.
Egbert Laege, SEFE CEO, stated that the project is crucial for Europe’s energy security and climate goals. He also highlighted SEFE’s role in leading the global energy transition. This initiative aligns with Europe’s revised Renewable Energy Directive, which requires an increasing share of hydrogen from renewable sources.
Brazil has emerged as a critical producer of low-cost green hydrogen. The country’s renewable energy resources make it an attractive location for large-scale hydrogen production. Other projects in Brazil, including one in Piauí state, aim to produce hydrogen for less than $5 per kilogram by 2028.
The SEFE-Eletrobras project is not the only initiative in Brazil. The Solatio project, backed by Spanish investors, will deliver 11.4 GW of hydrogen production capacity near the Parnaíba River. Another large project, the Green Energy Park, will focus on producing hydrogen for export to Europe. The Green Energy Park is also developing an import terminal on the Croatian island of Krk.
Europe plans to meet 70% of its hydrogen demand through imports by 2030. Securing reliable sources of green hydrogen is essential to achieving this goal. Brazil has become a key partner for Europe’s efforts to reduce carbon emissions. The SEFE-Eletrobras project will help strengthen Europe’s energy security while supporting global green energy production.
Brazil’s vast renewable resources, particularly hydropower, make it a prime location for hydrogen production. The country’s combination of low production costs and strong infrastructure makes it an attractive option for green hydrogen projects. The SEFE-Eletrobras partnership exemplifies the growing interest in hydrogen production in Brazil.
The demand for green hydrogen in Europe will rise significantly over the next decade. Europe has set ambitious climate targets, including a shift to renewable energy sources. Hydrogen is critical to this transition, especially for hard-to-decarbonise sectors such as heavy industry and transport.
The SEFE-Eletrobras partnership highlights the importance of international collaboration in achieving global energy goals. As Europe seeks to diversify its hydrogen sources, partnerships with countries like Brazil will become increasingly important. The SEFE-Eletrobras project may be a model for future green hydrogen ventures in other regions.
This collaboration also underscores Brazil’s growing role in the global energy transition. Brazil is a leader in green hydrogen production by leveraging its renewable energy resources. The SEFE-Eletrobras initiative is one of many efforts to turn Brazil into a significant hydrogen supplier for Europe.
The project will help reduce Europe’s dependence on fossil fuels and achieve climate goals. By producing green hydrogen in Brazil, Europe can access a reliable, renewable energy source while supporting cleaner global energy production. The SEFE-Eletrobras partnership is a prime example of how international collaboration can drive the transition to a more sustainable energy future.