Innovation driven by R&D
We Continue To Provide Advanced And Cost-Effective Solutions In The Renewable Sector.
At the forefront of innovation, research and development as an engine of progress.
What is R&D at Tetrace Engineering?
Get to know our R&D projects
Our track record speaks for itself, with five R&D projects successfully completed in the onshore (mainly blades), offshore and naval wind sectors, and two more in confidential development. Our featured projects include offshore wind work, wind maintenance and renewable civil engineering.
OTTIS
Adaptable lashing and installation system for Offshore wind towers. The lashing system is adaptable to both the used transport ships and the different models of towers, allowing operation times to be reduced by allowing quick lashing/unlashing.
SACPA
Intelligent system for drying blade repairs in controlled environments. This system allows traceability of the repair drying process as a means of quality control of the final repairs.
ALL IN ONE CRANE
Design of a crane integrated into the nacelle and fully foldable that allows the installation of the necessary tools to carry out minor and major corrective maintenance on the wind turbines.
TOWER CARRIER
Development of an innovative system for the transportation of offshore wind towers from manufacturing plants to assembly ports. To this end, tools have been developed for sizing ships and defining their main systems.
IZEEN PORTS
This foundation will serve as a base or platform on which to arrange the required systems, whether prototypes, laboratories or signaling buoys in a quick and economical way, avoiding the use of specialized vessels.
IPEEM
A new concept of marine floating foundation infrastructure, which allows the installation of high-power turbines in deep locations, with greater availability and better wind resources.
Collaborative Projects
REBASE/REPOWER
The project pursues the development of a new foundation concept for high-power wind turbines, which allows the repowering of existing wind farms, reusing the foundations of previous wind turbines.
IMBLASERYS
Wind turbine blade repair control system that guarantees the curing process of repairs both in the factory and in the park with the blade disassembled or assembled.
SI100
Substructure and installation process in deep waters (up to 100 m) to reduce the cost of offshore wind energy. Modular and easy-to-execute Jacket-type structure for offshore installations in deep waters.
R1 WIND
Holistic solution for the reconditioning and use of the main components of wind turbines in the dismantling phase, which integrates the entire value chain, generating industrial activity through Circular Economy models.
Innovative and Customized Solutions
We offer comprehensive services, from conceptual design to manufacturing and operation cost analysis. Our specialty lies in offering innovative solutions adapted to the specific needs of our clients, ensuring the long-term profitability of projects.
Long-term impact and benefits
Promotion of Innovation
Our investment in R&D stimulates the creation of innovative solutions, allowing us to lead rather than follow market trends.
Positioning for the Future
Through R&D, we prepare for the future, developing today the technologies and solutions that will be in demand tomorrow.
Environmental responsibility
By developing solutions that are respectful of the environment, we contribute to a more sustainable future.
Long-Term Value Creation
Investment that generates long-term value, strengthening and establishing a reputation as a benchmark in the renewable energy sector.
Advanced technology for a sustainable future
At Tetrace Advance Engineering Solutions (TAES), we use the latest technologies such as advanced simulation and 3D design, not only to lead the present, but to design the future. We are at the forefront of the latest trends and developments in engineering, allowing us to create efficient, cost-effective and, most importantly, sustainable solutions.
Greater Precision: Advanced technology allows us to design and simulate solutions with incredible precision, minimizing errors and maximizing efficiency.
Cost Reduction: The efficiency provided by these technologies can lead to significant cost reduction in the long term.
Continuous Improvement: Advanced technologies allow us to collect and analyze data more effectively, making it easier to identify areas of improvement and implement continuous improvements.
Sustainability: Advanced technologies, especially in the field of renewable energy, play a crucial role in creating more sustainable and environmentally friendly solutions.