Nanoengineered Graphene-Reinforced Coating for Leading Edge Protection of Wind Turbine Blades

被引:21
|
作者
Johansen, Nicolai Frost-Jensen [1 ]
Mishnaevsky, Leon, Jr. [1 ]
Dashtkar, Arash [2 ]
Williams, Neil A. [2 ]
Faester, Soren [1 ]
Silvello, Alessio [3 ]
Cano, Irene Garcia [3 ]
Hadavinia, Homayoun [2 ]
机构
[1] Tech Univ Denmark, Dept Wind Energy, RisO Campus, DK-4000 Roskilde, Denmark
[2] Kingston Univ, Dept Mech Engn, London SW15 3DW, England
[3] Univ Barcelona, Thermal Spray Ctr CPT, Marti & Franques 1, Barcelona 08028, Spain
来源
COATINGS | 2021年 / 11卷 / 09期
关键词
wind energy; coatings; leading edge erosion; wind turbine; wind turbine blade; MECHANICAL-PROPERTIES; CARBON NANOTUBES; EROSION; COMPOSITES; IMPACT; POLYURETHANE; SYNERGY; DAMAGE; NANOPLATELETS; FATIGUE;
D O I
10.3390/coatings11091104
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Possibilities of the development of new anti-erosion coatings for wind turbine blade surface protection on the basis of nanoengineered polymers are explored. Coatings with graphene and hybrid nanoreinforcements are tested for their anti-erosion performance, using the single point impact fatigue testing (SPIFT) methodology. It is demonstrated that graphene and hybrid (graphene/silica) reinforced polymer coatings can provide better erosion protection with lifetimes up to 13 times longer than non-reinforced polyurethanes. Thermal effects and energy dissipation during the repeated soft impacts on the blade surface are discussed.
引用
收藏
页数:18
相关论文
共 50 条
  • [1] Fatigue lifetime prediction model for leading edge protection coating systems of wind turbine blades
    Hoksbergen, T. H.
    Akkerman, R.
    Baran, I.
    [J]. TRIBOLOGY INTERNATIONAL, 2023, 189
  • [2] Aerodynamics of leading-edge protection tapes for wind turbine blades
    Major, Desirae
    Palacios, Jose
    Maughmer, Mark
    Schmitz, Sven
    [J]. WIND ENGINEERING, 2021, 45 (05) : 1296 - 1316
  • [3] Leading edge erosion of wind turbine blades: Understanding, prevention and protection
    Mishnaevsky, Leon, Jr.
    Hasager, Charlotte Bay
    Bak, Christian
    Tilg, Anna-Maria
    Bech, Jakob, I
    Rad, Saeed Doagou
    Faester, Soren
    [J]. RENEWABLE ENERGY, 2021, 169 : 953 - 969
  • [4] Rain droplet impact stress analysis for leading edge protection coating systems for wind turbine blades
    Hoksbergen, T. H.
    Akkerman, R.
    Baran, I.
    [J]. RENEWABLE ENERGY, 2023, 218
  • [5] Leading edge erosion of coated wind turbine blades: Review of coating life models
    Slot, H. M.
    Gelinck, E. R. M.
    Rentrop, C.
    van der Heide, E.
    [J]. RENEWABLE ENERGY, 2015, 80 : 837 - 848
  • [6] Evaluation of offshore wind turbine blades coating thickness effect on leading edge protection system subject to rain erosion
    Ansari, Quaiyum M.
    Sanchez, Fernando
    Mishnaevsky Jr., Leon
    Young, Trevor M.
    [J]. RENEWABLE ENERGY, 2024, 226
  • [7] Repair and reinforcement of the leading edge of wind turbine blades
    Masek, Roman
    [J]. OCHRONA PRZED KOROZJA, 2023, 66 (04): : 122 - 123
  • [8] A Numerical Model for the Analysis of Leading-Edge Protection Tapes for Wind Turbine Blades
    Major, D.
    Palacios, J.
    Maughmer, M.
    Schmitz, S.
    [J]. NAWEA WINDTECH 2019, 2020, 1452
  • [9] CFD SIMULATION ON WIND TURBINE BLADES WITH LEADING EDGE EROSION
    Wang, Yan
    Wang, Liang
    Duan, Chenglin
    Zheng, Jian
    Liu, Zhe
    Ma, Gaosheng
    [J]. JOURNAL OF THEORETICAL AND APPLIED MECHANICS, 2021, 59 (04) : 579 - 593
  • [10] CFD Modeling of Wind Turbine Blades with Eroded Leading Edge
    Carraro, Michael
    De Vanna, Francesco
    Zweiri, Feras
    Benini, Ernesto
    Heidari, Ali
    Hadavinia, Homayoun
    [J]. FLUIDS, 2022, 7 (09)
12345