Towards tURbine Blade production with zero waste

Digital, Industry & SpaceHORIZON-IAID: 101058054
EC Contribution
€68,137
Consortium Size
12 orgs
Start Year
2022
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.

Consortium (12)

Project Results (27)

Source: CORDIS, the EU research results database.

Publications (24)
A Precise Prediction of the Chemical and Thermal Shrinkage during Curing of an Epoxy Resin
Polymers· 2024DOI
Jesper K. Jørgensen, Vincent K. Maes, Lars P. Mikkelsen, Tom L. Andersen
An efficient approach for mesoscale virtual permeability predictions using realistic fiber geometry extracted via micro-X-ray computed tomography
ECCM 21· 2024
Debabrata Adhikari, Jesper John Lisegaard, Jesper Henri Hattel and Sankhya Mohanty
Finite element simulation of the driving mechanisms for cure-induced wrinkles
ECCM 21· 2024
Jørgensen, J. K., Mikkelsen, L. P., and Maes, V
Looking into eggs by mid-infrared OCT for non-destructive inspection
Photonics West 2024· 2024DOI
Niels M. Israelsen, Rasmus E. Hansen, Coraline Lapre, Christian R. Petersen, Ole Bang
Mid-IR supercontinuum noise reduction by SPM
Photonics West 2024· 2024DOI
R.E. Hansen, C.R. Smith, A.M. Moltke, C.R. Petersen, S. Raghuraman, S. Yoo, O. Bang
Noise characterization of mid-infrared supercontinuum generated through gain-switched pumping
Photonics West 2024· 2024
Callum R. Smith, Christian R. Petersen and Ole Bang
Non-destructive inspection by MIR OCT of sub-surface defects in 3D printed alumina
Unconventional Optical Imaging IV· 2024DOI
Coraline Lapre, Dominik Brouczek, Martin Schwentenwein, Kevin Neumann, Niels Benson, Christian Rosenberg Petersen, Ole Bang, Niels Møller Israelsen
Non-destructive inspection of wind turbine blades with mid-infrared optical coherence tomography
Photonics West 2024· 2024DOI
Coraline Lapre, Christian R. Petersen, Per Nielsen, Thomas Wulf, Jakob Ilsted Bech, Søren Fæster, Niels M. Israelsen, Ole Bang
Quantifying Intra-tow Fiber Volume Fraction in GFRP: A comparison of 3D non-destructive X-ray computed tomography and destructive optical microscopy [Poster]
ECCM21· 2024
Jesper John Lisegaard, Debabrata Adhikari, Jesper Henri Hattel and Sankhya Mohanty
Rapid non-destructive inspection of sub-surface defects in 3D printed alumina through 30 layers with 7 μm depth resolution
Open Ceramics· 2024DOI
C. Lapre, D. Brouczek, M. Schwentenwein, K. Neumann, N. Benson, C.R. Petersen, O. Bang, N.M. Israelsen
Repetition rate optimized 2  µm gain-switched diode pumped MIR supercontinuum
Journal of the Optical Society of America B· 2024DOI
C. R. Smith, D. H. Yeh, P. B. Montague, C. R. Petersen, O. Bang
Challenges in permeability characterisation for modelling the manufacture of wind turbine blades
IOP Conf. Series· 2023DOI
Robert S. Pierce
Characterisation and in situ monitoring of epoxy thermoset curing for application in wind turbine blade
IOP Conf. Series· 2023DOI
Jesper K. Jørgensen, Lars P. Mikkelsen, Tom L. Andersen
High-power supercontinuum lasers with a flat blue spectrum through pump modulation: a numerical study
Optics Letters· 2023DOI
R.E. Hansen, A.M. Moltke, O. Bang
Lecture Notes in Computer Science
IDEAL 2023· 2023DOI
N. P. García-de-la-Puente, Rocío del Amor, Fernando García-Torres, Adrián Colomer & Valery Naranjo
Mid-Infrared All-spliced Cascaded Supercontinuum Generation
CLEO Europe 2023· 2023DOI
C.R. Petersen, O. Bang
Mid-infrared OCT for non-destructive sub-surface inspection and in-line production monitoring
CLEO Europe 2023· 2023
C. Lapre, R.E. Hansen, C.R. Petersen, N.M. Israelsen, D. Brouczek, O. Bang
Mid-IR Supercontinuum Noise Reduction Using a Short Piece of Normal Dispersion Fiber - A General Mechanism
Laser and Photonic Reviews· 2023DOI
Rasmus Eilkœr Hansen, Callum Robertson Smith, Asbjørn Moltke, Christian Rosenberg Petersen, Sidharthan Raghuraman, Seongwoo Yoo, Ole Bang
MIR Supercontinuum Using Gain-Switched and Modelocked Pumping
CLEO Europe 2023· 2023DOI
C.R. Smith, C.R. Petersen, O. Bang
Non‐destructive and contactless defect detection inside leading edge coatings for wind turbine blades using mid‐infrared optical coherence tomography
Wind Energy· 2023DOI
Christian Rosenberg Petersen; Søren Fæster; Jakob Ilsted Bech; Kristine Munk Jespersen; Niels Møller Israelsen; Ole Bang
Online Tg estimation for blade manufacturing
IOP Conf. Series· 2023DOI
Nikos Pantelelis
Supercontinuum noise reduction with short normal dispersion fibers – a simple and general technique
Nonlinear Optics 2023· 2023DOI
R.E. Hansen, C.R. Smith, A.M. Moltke, C.R. Petersen, S. Raghuraman, S. Yoo, O. Bang
Unsupervised Defect Detection for Infrastructure Inspection
IDEAL 2023· 2023DOI
Pérez-García de la Puente, Natalia Lourdes; del Amor, Rocío; García-Torres, Fernando; Colomer, Adrián; Naranjo Ornedo, Valeriana
Diode-Pumped MIR Supercontinuum
Danish Optical Society: National Optics Congress 2023· 2022DOI
Smith, Callum Robertson
Deliverables (2)
Other Results (1)
Periodic Reporting for period 2 - TURBO (Towards tURbine Blade production with zero waste)