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AQUADA: Automated quantification of damages in composite wind turbine blades for LCOE reduction

Xiao Chen, ASM Shihavuddin, Steen Hjelm Madsen, Kenneth Thomsen, Steffen Rasmussen, Kim Branner

2020Wind Energy35 citationsDOIOpen Access PDF

Abstract

Abstract Reliability and cost are two important driving factors in the development of wind energy. Automation and digitalization of operation and maintenance (O&M) procedures help to increase turbine reliability and reduce the levelized cost of energy (LCOE). Here, we demonstrate a novel method, coined as AQUADA, which may change the current labor‐intensive and operation‐interfering blade inspection by using thermography and computer vision. We experimentally show that structural damages below the surfaces can be detected and quantified remotely when wind turbine blades are subject to fatigue loads. The data acquisition and analysis are automatically done in one single step, which may shift the current inspection paradigm through more automated O&M procedures. The cost analysis shows that the AQUADA method has a potential to at least half the total inspection cost and reduce the LCOE by 1%–2% when applied to a baseline land‐based wind farm consisting of twenty 2.45‐MW turbines. All data and source codes are published for researchers to reproduce our results and facilitate further development of AQUADA towards more mature industrial applications.

Topics & Concepts

DamagesTurbine bladeReduction (mathematics)TurbineComposite numberWind powerEngineeringForensic engineeringMarine engineeringEnvironmental scienceAerospace engineeringMaterials scienceComposite materialMathematicsElectrical engineeringLawPolitical scienceGeometryStructural Health Monitoring TechniquesNon-Destructive Testing TechniquesWind and Air Flow Studies
AQUADA: Automated quantification of damages in composite wind turbine blades for LCOE reduction | Litcius