Project "Maintenance and Repair Strategy for Wind Energy Development"
Duration: October 1, 2020- September 31, 2025
Budget: 4.6 Mio kroner
Supported by Danida Fellowship Center
Coordinator: Leon Mishnaevsky Jr. (Senior Scientist, Dr. habil),
DTU webpage: Link
Schema of optimization of blade repair
Work Packages:
Maintenance and repair market on wind turbines.
Field studies: degradation mechanisms and post-repair behaviour.
Protection, maintenance and repair package: Development and validation.
Computational model of wind turbine degradation and repair.
Strategy and decision support for repair
Capacity building .and training
Mini-Symposium on "Maintenance, repair and refurbishment of wind turbines"
Mini-Symposoium will be organized at the Wind Energy Science Conference, 25-28 May 2021, Hannover. https://lnkd.in/e3sK2K3
Objective:
is to provide wind energy industry with technologies, guidelines and know-how for the efficient protection, maintenance and repair of wind turbines. The project includes the optimization of the wind turbine blade technology, validation of the technologies in practical situation, ensuring the enhanced reliability of wind turbines by optimized repair technologies, recommendations and guidelines toward the improvement of maintenance and repair technologies.
Some Publications:
L. Mishnaevsky Jr., Root causes and mechanisms of failure of wind turbine blades: Overview, Materials, 2022
L. Mishnaevsky Jr., Recycling of wind turbine blades: Recent developments, Current Opinion in Green and Sustainable Chem, 2023
S.M. Pathak, et al, Development of cellulose-reinforced polyurethane coatings: A novel eco-friendly approach for wind turbine blade protection, Energies 2023;
L.Mishnaevsky Jr., et al , Repair of wind turbine blades: Costs and quality, 2022 J. Phys.: Conf. Ser. 2265 032032
D. Paul et al, Post-repair residual stresses and microstructural defects in wind turbine blades: Computational modelling, Int J Adhesion and Adhesives, 2023
L. Mishnaevsky Jr. Repair of wind turbine blades: Technologies, modelling, costs, WindTech International, 05 May 2022
S.M. Pathak, et al.. Solid particle erosion performances of ceramic nanoparticles reinforced water-based polyurethane coatings for wind turbine application, Ceramics International ,Part B, 2022
N. Kuthe et al, Engineered anti-erosion coating for wind turbine blade protection: Computational analysis, Mals Today Comms, V2022, 103362
L. Mishnaevsky Jr., et al, Technologies of wind turbine blade repair: practical comparison. Energies. 2022
K. Boopathi, et al, Failure mechanisms of wind turbine blades in India: Climatic, regional and seasonal variability, Wind Energy, 2022
L. Mishnaevsky Jr., Sustainable end-of-life management of wind turbine blades: Overview of current and coming solutions. Materials 2021
Partners:
DTU Wind Energy: coordinator
Danish Blade Service ApS: Wind turbine repair company
NIWE (National Institute of Wind Energy), India: Nodal Agency for development of wind energy in India
WiSH Energy Solutions, India: comprehensive solutions from site assessment and feasibility studies, to final project implementation
WindCare India Pvt.Ltd., India: installation, maintenance and repair of wind turbines. developer of innovative "without crane technology"
NAL (National Aerospace Laboratories), India: repair technologies for composite materials
IIT Delhi, Department of Applied Mechanics, India
