Scaling Challenges for Conical Plain Bearings as Wind Turbine Main Bearings

Author:

Euler Jan1ORCID,Jacobs Georg12ORCID,Loriemi Amin1,Jakobs Timm1,Rolink Amadeus1,Röder Julian1ORCID

Affiliation:

1. Center for Wind Power Drives, RWTH Aachen University, 52074 Aachen, Germany

2. Institute for Machine Elements and Systems Engineering, RWTH Aachen University, 52062 Aachen, Germany

Abstract

Wind energy is an important renewable energy source. Rotor main bearings are critical components of wind turbines since a faulty main bearing leads to downtime and high repair costs. Operational expenditures amount to 32% of wind energy costs. The use of plain bearings as main bearings can potentially reduce these costs. Plain bearings with segmented sliding elements can be repaired up-tower without dismantling the drivetrain, as damaged segments can be exchanged individually. One such segmented plain bearing design is the conical plain bearing design called FlexPad. For the FlexPad, proof of concept was achieved for the 1 MW range during previous studies. Modern wind turbines—especially for offshore deployment—have increased in size significantly compared with their predecessors. The goal of current studies is to transfer the FlexPad design towards a main bearing unit at a market relevant scale of 8.5 MW. In this work, the identified scaling challenges are presented. A FlexPad model scaled to the 8.5 MW range is presented to illustrate the challenges. The bearing load components, such as radial forces and torque, increase on different scales with increasing rotor size leading to changed load characteristics with increasing size. Increased rotor weight and bearing diameters result in an increase in the breakaway torque required to start turbine rotation. This breakaway torque can exceed the torque generated by the turbine at starting wind speeds. The generally increased loads necessitate stiffer sliding segments leading to the increased weight of the segments, which hampers the ability to easily exchange segments.

Funder

federal ministry for economic affairs and climate action

Publisher

MDPI AG

Reference28 articles.

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3. Stehly, T., and Duffy, P. (2023). 2021 Cost of Wind Energy Review, National Renewable Energy Lab.

4. (2023, October 24). Windeurope: Offshore Wind in Europe Key Trends and Statistics. Available online: https://windeurope.org/wp-content/uploads/files/about-wind/statistics/WindEurope-Annual-Offshore-Statistics-2019.pdf.

5. (2023, October 24). Windeurope: Wind Energy in Europe Trends and Statistics. Available online: https://windeurope.org/wp-content/uploads/files/about-wind/statistics/WindEurope-Annual-Statistics-2019.pdf.

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