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Wind turbine drivetrains: state-of-the-art technologies and future development trends
Nejad, A.R.; Keller, J.; Guo, Y.; Sheng, S.; Polinder, H.; Watson, S.; Dong, J.; Qin, Z.; Ebrahimi, A.; Schelenz, R.; Gutiérrez Guzmán, F.; Cornel, D.; Golafshan, R.; Jacobs, G.; Blockmans, B.; Carroll, J.; Koukoura, S.; Hart, E.; McDonald, A.; Natarajan, A.; Torsvik, J.; Moghadam, F.K.; Daems, P.-J.; Verstraeten, T.; Peeters, C.; Helsen, J. (2022). Wind turbine drivetrains: state-of-the-art technologies and future development trends. Wind Energy Science 7(1): 387-411. https://dx.doi.org/10.5194/wes-7-387-2022
In: Wind Energy Science. Copernicus Publications: Germany. ISSN 2366-7443; e-ISSN 2366-7451, more
Peer reviewed article  

Available in  Authors 

Keyword
    Marine/Coastal

Authors  Top 
  • Nejad, A.R.
  • Keller, J.
  • Guo, Y.
  • Sheng, S.
  • Polinder, H.
  • Watson, S.
  • Dong, J.
  • Qin, Z.
  • Ebrahimi, A.
  • Schelenz, R.
  • Gutiérrez Guzmán, F.
  • Cornel, D.
  • Golafshan, R.
  • Jacobs, G.
  • Blockmans, B., more
  • Carroll, J.
  • Koukoura, S.
  • Hart, E.
  • McDonald, A.
  • Natarajan, A.
  • Torsvik, J.
  • Moghadam, F.K.
  • Daems, P.-J., more
  • Verstraeten, T., more
  • Peeters, C., more
  • Helsen, J., more

Abstract
    This paper presents the state-of-the-art technologies and development trends of wind turbine drivetrains – the system that converts kinetic energy of the wind to electrical energy – in different stages of their life cycle: design, manufacturing, installation, operation, lifetime extension, decommissioning and recycling. Offshore development and digitalization are also a focal point in this study. Drivetrain in this context includes the whole power conversion system: main bearing, shafts, gearbox, generator and power converter. The main aim of this article is to review the drivetrain technology development as well as to identify future challenges and research gaps. The main challenges in drivetrain research identified in this paper include drivetrain dynamic responses in large or floating turbines, aerodynamic and farm control effects, use of rare-earth material in generators, improving reliability through prognostics, and use of advances in digitalization. These challenges illustrate the multidisciplinary aspect of wind turbine drivetrains, which emphasizes the need for more interdisciplinary research and collaboration.

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