TURBO | Towards tURbine Blade production with zero waste

Summary

>10000 wind turbine blades (WTBs) were installed in Europe in 2019, and the largest are >100 m long. Yet the manufacturing methods have not changed significantly since the 1970s, with little or no NDT or in-line control, leading to high defect, repair and scrap rates. TURB0 will reduce defects and improve repair strategies in WTB composites and coatings.
-Improved composite production processes: By using the latest simulation techniques to avoid defect formation and understand how defects affect structural integrity.
-In-line NDT: Combining three cutting-edge NDT technologies (dielectric, wireless, sensor-less) for the first large scale in-line in situ composite production monitoring.
-Sub-surface WTB coating inspection: Currently coatings only undergo visual surface inspection or destructive testing. TURB0 will combine ultrasound and mid-IR OCT for the most detailed coating assessment ever performed.
-Digital twin and data warehouse: Production equipment, monitoring and in-line NDT data will be combined to establish a digital twin for real-time analysis of production. This has never been attempted for a large-scale composite part. It will populate a data warehouse accessible from multiple production sites.
-In-line system control: Using the digital twin, a ML-based algorithm will provide closed-loop process control to minimise defect formation and waste and optimise process efficiency.
-Automated repair strategy: The digital twin enables a ML analysis of defect severity in composites, with automated strategies to reduce repairs by 90 % and increase recycling of off-cuts.
-Full-scale demo: A demo on a full size >80 m WTB section will be performed at the SGRE factory in Aalborg.
-Quantified sustainability improvements: including life cycle analysis (LCA), social LCA and circular economy assessments to quantify environmental and socioeconomic benefits.
-Dissemination and exploitation activity: includes a powerful Advisory Board, training, standards and business plan.

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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/101058054
https://turboproject.eu/ - Project website
Start date: 01-10-2022
End date: 31-03-2026
Total budget - Public funding: 9 691 141,00 Euro - 6 813 734,00 Euro
Cordis data

Original description

>10000 wind turbine blades (WTBs) were installed in Europe in 2019, and the largest are >100 m long. Yet the manufacturing methods have not changed significantly since the 1970s, with little or no NDT or in-line control, leading to high defect, repair and scrap rates. TURB0 will reduce defects and improve repair strategies in WTB composites and coatings.
-Improved composite production processes: By using the latest simulation techniques to avoid defect formation and understand how defects affect structural integrity.
-In-line NDT: Combining three cutting-edge NDT technologies (dielectric, wireless, sensor-less) for the first large scale in-line in situ composite production monitoring.
-Sub-surface WTB coating inspection: Currently coatings only undergo visual surface inspection or destructive testing. TURB0 will combine ultrasound and mid-IR OCT for the most detailed coating assessment ever performed.
-Digital twin and data warehouse: Production equipment, monitoring and in-line NDT data will be combined to establish a digital twin for real-time analysis of production. This has never been attempted for a large-scale composite part. It will populate a data warehouse accessible from multiple production sites.
-In-line system control: Using the digital twin, a ML-based algorithm will provide closed-loop process control to minimise defect formation and waste and optimise process efficiency.
-Automated repair strategy: The digital twin enables a ML analysis of defect severity in composites, with automated strategies to reduce repairs by 90 % and increase recycling of off-cuts.
-Full-scale demo: A demo on a full size >80 m WTB section will be performed at the SGRE factory in Aalborg.
-Quantified sustainability improvements: including life cycle analysis (LCA), social LCA and circular economy assessments to quantify environmental and socioeconomic benefits.
-Dissemination and exploitation activity: includes a powerful Advisory Board, training, standards and business plan.

Status

SIGNED

Call topic

HORIZON-CL4-2021-TWIN-TRANSITION-01-02

Update Date

27-10-2022
Images
TURBO logo.jpg
Geographical location(s)
Structured mapping
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Factories of the Future Partnership (FoF) - Made in Europe Partnership (MiE)
Made in Europe (MiE)
Made in Europe Call 2021
HORIZON-CL4-2021-TWIN-TRANSITION-01-02: Zero-defect manufacturing towards zero-waste (Made in Europe Partnership) (IA)
Horizon Europe
HORIZON.2 Global Challenges and European Industrial Competitiveness
HORIZON.2.4 Digital, Industry and Space
HORIZON.2.4.1 Manufacturing Technologies
HORIZON-CL4-2021-TWIN-TRANSITION-01
HORIZON-CL4-2021-TWIN-TRANSITION-01-02: Zero-defect manufacturing towards zero-waste (Made in Europe Partnership) (IA)