Ce topic appartient à l'appel Sustainable, secure and competitive energy supply
Identifiant du topic: HORIZON-CL5-2023-D3-02-15

Critical technologies to improve the lifetime, efficient decommissioning and increase the circularity of offshore and onshore wind energy systems

Type d'action : HORIZON Research and Innovation Actions
Nombre d'étapes : Single stage
Date d'ouverture : 04 mai 2023
Date de clôture : 05 septembre 2023 17:00
Budget : €12 000 000
Call : Sustainable, secure and competitive energy supply
Call Identifier : HORIZON-CL5-2023-D3-02
Description :

ExpectedOutcome:

Project results are expected to contribute to at least two of the following expected outcomes:

  • Improved overall lifetime, reliability, recyclability, sustainability, operability and maintainability of onshore and offshore wind turbines and foundations/substructures.
  • Enhanced overall sustainability of wind energy systems based on mainstreamed Life Cycle Analysis addressing social, economic and environmental aspects, as well as improved circularity.
  • Mainstreamed affordable high life-cycle performance, life extension, more efficient decommissioning, and improved circularity of wind turbine components.
  • Potential new markets in wind turbines recycling and/or re-purposing.

Scope:

Innovative technologies to improve the lifetime, efficient decommissioning and increase the circularity of wind energy systems. Project can address one of the following points:

  • Development of improved, more damage-tolerant materials (composites and adhesives) considering different external conditions in which the materials are used (consider very low/high temperatures, ice, corrosion, erosion.
  • The development of improved manufacturing procedures for turbine components and construction methods for wind turbine farms and design methods for wind turbine components.
  • The development of materials and interfaces for joints of major load-carrying parts like main spars (split blades and tower parts).
  • The development of bio-based fibres and resins with improved mechanical properties.
  • Lifetime extension by innovative design for increased resilience and repair solutions for in the first-place wind turbine components like blades, drive train and generators’, and support structures.
  • New installation, decommissioning, and condition monitoring technologies and operation and maintenance methodologies (e.g. remote controlled devices for in situ repairs by robots).
  • New efficient recycling technologies for wind energy components.
  • Alternatives in materials/new advanced materials.
  • New technologies for effective and environmentally friendly decommissioning of wind energy systems.

But it is not excluded to consider other solutions.

This R&I need is critical for onshore wind given the large volumes of capacity to be decommissioned in the next decade. The R&I need was also identified in the offshore renewable energy strategy (COM(2020) 741 final) that commits the Commission to ‘systematically integrate the principle of ‘circularity by design’ into renewables research & innovation’.

Specific Topic Conditions:

Activities are expected to achieve TRL 5 by the end of the project – see General Annex B.