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Life Cycle Assessment of Various PMSG-Based Drivetrain Concepts for 15 MW Offshore Wind Turbines Applications

Author

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  • Farid Khazaeli Moghadam

    (Department of Marine Technology, Norwegian University of Science and Technology, 7491 Trondheim, Norway)

  • Nils Desch

    (Department of Marine Technology, Norwegian University of Science and Technology, 7491 Trondheim, Norway)

Abstract

There are different configurations selected by both industry and academia as the drivetrain for wind turbines in the power range of 10 to 16 MW. The choice of drivetrain system influences the levelized cost of energy, and, as the turbines become larger, and, therefore, costlier, there is more potential for the optimization of cost critical systems, like the drivetrain. The latter motivates the utilization of a life cycle assessment approach to profoundly influence the choice of drivetrain technology such that it offers a better compromise between the different aspects in the drivetrain life cycle. To this end, in this paper, various permanent magnet synchronous generator (PMSG)-based drivetrain technologies for 15 MW bottom-fixed and floating offshore wind turbine applications are designed and compared. The technologies under investigation are based on direct-drive, medium- and high-speed generators. The conceptual design of the drivetrain for the three technologies under consideration is investigated and the pros and cons of each technology are assessed and explained by looking, simultaneously, into the design, manufacturing, operation and maintenance.

Suggested Citation

  • Farid Khazaeli Moghadam & Nils Desch, 2023. "Life Cycle Assessment of Various PMSG-Based Drivetrain Concepts for 15 MW Offshore Wind Turbines Applications," Energies, MDPI, vol. 16(3), pages 1-26, February.
    • Handle: RePEc:gam:jeners:v:16:y:2023:i:3:p:1499-:d:1056072
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    References listed on IDEAS

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    1. Shields, Matt & Beiter, Philipp & Nunemaker, Jake & Cooperman, Aubryn & Duffy, Patrick, 2021. "Impacts of turbine and plant upsizing on the levelized cost of energy for offshore wind," Applied Energy, Elsevier, vol. 298(C).
    2. Petrica Taras & Reza Nilifard & Zi-Qiang Zhu & Ziad Azar, 2022. "Cooling Techniques in Direct-Drive Generators for Wind Power Application," Energies, MDPI, vol. 15(16), pages 1-29, August.
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    Cited by:

    1. Cheng Yang & Jun Jia & Ke He & Liang Xue & Chao Jiang & Shuangyu Liu & Bochao Zhao & Ming Wu & Haoyang Cui, 2023. "Comprehensive Analysis and Evaluation of the Operation and Maintenance of Offshore Wind Power Systems: A Survey," Energies, MDPI, vol. 16(14), pages 1-39, July.

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