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Forschung im Ingenieurwesen

Erschienen in:

20.03.2023 | Originalarbeiten/Originals

Dynamic modelling of slip in a wind turbine spherical roller main bearing

verfasst von: Elisha de Mello, Edward Hart, Yi Guo, Jonathan Keller, Rob Dwyer-Joyce, Ampea Boateng

Erschienen in: Forschung im Ingenieurwesen | Ausgabe 1/2023

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Abstract

This paper considers the problem of the dynamic modelling of macro slip in spherical roller bearings. By revisiting the fundamental physics which drive these systems, potential issues in existing models have been identified. Furthermore, in pure rolling conditions it was found that governing differential equations become “stiff”, requiring the use of implicit methods of time integration. The problem of individual roller macro slip in a wind turbine main bearing is then investigated using a simplified representation of system dynamics. Model results indicate clear links between slip/friction and the operational strategy of the wind turbine, as well as significantly higher frictional effects in the downwind main bearing row. Due to modelling simplifications, these results should not yet be considered conclusive, with further work required.

Vorheriger Artikel Fleet-wide analytics on field data targeting condition and lifetime aspects of wind turbine drivetrains

Nächster Artikel A discussion on the characterization of grid emulators by apparent power rating and short-circuit power

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More specifically, \(\mathbf{L}_{\text{CoM}}\) is the angular momentum (relative to \(\mathcal{O})\) of a point mass with mass equal to that of the rigid body, and with position and velocity equal to the body centre-of-mass at each point in time.

An example of such an orbit being that of our tidally-locked moon.

The benefit of this being that at “pure rolling” the orbital speed becomes a simple function of shaft speed, similar to a gear-speed equation [13, 17].

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Titel: Dynamic modelling of slip in a wind turbine spherical roller main bearing
verfasst von: Elisha de Mello
Edward Hart
Yi Guo
Jonathan Keller
Rob Dwyer-Joyce
Ampea Boateng
Publikationsdatum: 20.03.2023
Verlag: Springer Berlin Heidelberg
Erschienen in: Forschung im Ingenieurwesen / Ausgabe 1/2023
Print ISSN: 0015-7899
Elektronische ISSN: 1434-0860
DOI: https://doi.org/10.1007/s10010-023-00652-z

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