Innovative circular materials and design methods for the development of Floating Wind Turbine components for offshore Wind Farms of the future

Climate, Energy & MobilityHORIZON-RIAID: 101136096
EC Contribution
€60,033
Consortium Size
11 orgs
Start Year
2023
Summary

MADE4WIND aims to develop and test innovative components' concepts for a 15MW offshore Floating Wind Turbine (FWT) consisting of new designs and manufacturing techniques for blades, substructure, and drivetrain.The main results obtained in the project will be:- Novel FWT component design (and validation at reduced-scale): Lighter and recyclable WT blades; Improved TLP substructure (including lightweight floater concept, smaller gravity anchor and lighter tendons); and Improved drivetrain design (by a Compact generator with less rare-earths, and more reliable converter).- New material applications: new blade toughening material; new concrete; and Aluminum rebars for floating substructure.- New manufacturing processes: Preform for manufacturing blades.- Recyclability/Reuse of composites from Blades, concrete from substructure, and Aluminum rebars.- New software tools: Novel maintenance strategy and remote control systems; Improved modelling tool for LCoE analysis; Virtual model of 15MW FWT.- Guidelines: Integrated sustainability assessment; Biodiversity protection strategy; Training pathways for offshore wind local industry; Position paper with Offshore Wind stakeholders.These innovations will jointly allow future FWT to include new circular lightweight materials, minimize the impact of sea habitats, increase operational availability, reduce maintenance needs and minimize LCoE; thus, unlocking the massive deployment of >15MW floating WFs in Europe and worldwide.Partners' expertise will be key for project success, as they cover different expertise along the offshore wind value chain: Academia (SINTEF, AAU, NTNU, IFEU), consultancy (ZABALA), material suppliers (Norsk Hydro, Fibertex), WT components manufacturers (Acciona, Ingeteam, Indar) and WT manufacturer (Siemens-Gamesa). Moreover, in addition to partners' research skills, MADE4WIND proposes a strong dissemination plan, clustering with relevant Offshore Wind stakeholders, to maximise future impacts.

Consortium (11)

Project Results (13)

Source: CORDIS, the EU research results database.

Publications (8)
A coherent chemical recycling study of glass fibre reinforcements recycled from novel Recyclamine epoxy composites
· 2025
Indraneel R. Chowdhury, Lars R. Jensen, Brian L.V. Bak, Esben Lindgaard
Design and Modeling of a 15 MW Light-Weight Medium-Speed Drivetrain for Floating Offshore Wind Turbines
· 2025
Mehlan, Felix; Nejad, R. Amir; Gupta, Vasudev
HISAPS: High-order smoothing spline with automatic parameter selection and shape constraints
SoftwareX· 2025DOI
Peter H. Broberg; Esben Lindgaard; Asbjørn M. Olesen; Simon M. Jensen; Niklas K.K. Stagsted; Rasmus L. Bjerg; Riccardo Grosselle; Iñigo Urcelay Oca; Brian L.V. Bak
Permanent Magnets in Offshore Wind: State of the Art, Future Trends and Risk
2025 21st International Conference on the European Energy Market (EEM)· 2025DOI
Amir R. Nejad, Mihaela Ibrion
Rare Earth Elements: Trade-Off for Environment, Energy Security and Policies
2025 21st International Conference on the European Energy Market (EEM)· 2025DOI
Mihaela Ibrion, Amir R. Nejad
System identification of offshore wind turbines for model updating and validation using field measurements
Europeam Wind Energy Science· 2025DOI
Jakob Gebel, Ashkan Rezaei, Adithya Vemuri, Veronica Liverud Krathe, Pieter-Jan Daems, Jens Jo Matthys, Jonathan Sterckx, Konstantinos Vratsinis, Kayacan Kestel, Amir R. Nejad, Jan Helsen
Wind turbine blade root and blade bearing fatigue damage estimation based on field data
Forschung im Ingenieurwesen· 2025DOI
Jakob Gebel; Ashkan Rezaei; Pieter-Jan Daems; Rebeca Marini; Jens-Jo Matthys; Amir R. Nejad; Jan Helsen
Accurate framework for modelling defect formation in the forming of binder-stabilised preforms in wind turbine blade manufacturing
Peter H. Broberg, Esben Lindgaard, Adam J. Thompson, Jonathan P.-H. Belnoue, Stephen R. Hallett, and Brian L.V. Bak (AAU)
Deliverables (5)