Nabralift 3.MAX: A New Tower Family from Nabrawind for turbines up to 8MW
A new Nabralift tower family is already available in Nabrawind. The Nabralift 3.MAX, as it is named, can support turbines of 8 MW and reach tower heights of up to 210 meters.
This new tower family can handle up to 30% more load than the previous tower portfolio, making it compatible with a wider range of machines. With this new solution, Nabrawind covers a significant portion of the wind energy market, offering a variety of tower solutions to meet the current and future needs of the industry.
The first Nabralift tower designs, certified by DNV-GL (Nabralift 1.0 and Nabralift 2.0), were developed for turbines of 3.X-4.X MW. Today, our Nabralift 3.0 tower, certified by UL Solutions, is being delivered for turbines of 5.X-6.X MW. 3.MAX completes the coverage of the full international onshore market, expanding the range of applicability to 8 MW.
Nabralift 3.MAX retains the same geometry, technology and track record of the previous 3.0 tower family. The tower family comprehends 7 different tower models, configured with the same transition piece and different frame modules. The highest tower includes 6 frame modules, reaching a total height of 112 meters and allowing final hub heights between 195 and 210 meters.
Certification activities will be triggered shortly and the first Nabralift 3.MAX is scheduled to be installed next year, supporting a turbine exceeding 7MW.
The evolution of the wind energy sector in recent years, with increasingly taller towers and larger turbines, has made Nabrawind’s solutions the best option for overcoming today’s logistical and installation challenges. Without the need for large cranes and with the ability to surpass any height limit, Nabrawind’s flagship product, Nabralift, is positioned as the top alternative for any wind turbine manufacturer when tall towers are needed.
Analyzing future trends, Nabrawind continues to work on enhancing the Nabralift tower solution, with a Nabralift 4.0 tower family, available in 2026, that will be designed to reach up to 230 m in onshore turbines of 10MW.