EDPR begins construction of its first renewable project in Germany
The Ketzin solar farm, with an installed capacity of 87 MWp is expected to come online in the 2nd half of 2025, marking EDP’s capacity build-up in the country.
EDP Renewables has begun the construction of its first utility-scale renewable energy project in Germany, materializing the ambition it has set out for developing clean energy in the country.
The Ketzin project, located in Brandenburg, west of Berlin, has been developed in collaboration with Kronos Solar EDPR, a German-based solar developer acquired by EDP in 2022. Kronos Solar's established expertise has allowed EDP to create a strong pipeline of solar projects that will begin to materialize in the coming years.
The project has an installed capacity of 87 MWp and, once operational, is expected to produce around 91 GWh annually — enough to power over 28,000 households and prevent approximately 75,000 tons of CO2 emissions.
“The start of construction of Ketzin is a milestone for EDP and to all Kronos Solar EDPR teams as it marks the first step of our ambitious growth plan for Germany. With more than 5 GWp of utility-scale solar projects in different stages of development until the end of the decade and with a dedicated team to drive wind and other renewable technologies, Germany is to become one of the most important markets for EDP’s global ambitions”, highlights Duarte Bello, CEO of Europe for EDP.
While EDP's near-term projects in Germany are focused on large-scale solar capacity - with a target of installing over 400 MWp in the next 2 years -, EDP's long-term strategy includes not only solar but also expanding and diversifying its portfolio with a strong focus on wind power and BESS, expecting to build-up its contribution to the needed energy transition in Germany with over 1GW of new projects by 2030.
Germany will account for about 20% of EDP’s European investment by the end of its current Business Plan, and around 25% by 2030, reflecting the company’s ongoing commitment to supporting Germany’s energy transition.