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Simulative investigation of plain bearing main bearing units for wind turbines in the 5MW class

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Simulative investigation of plain bearing main bearing units for wind turbines in the 5MW class

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dc.contributor.advisor Bracho León, Gabriela Cristina es_ES
dc.contributor.advisor Röder, Julian es_ES
dc.contributor.advisor Jacobs, Georg es_ES
dc.contributor.advisor Euler, Jan es_ES
dc.contributor.author Oliver Rodrigo, Ana es_ES
dc.date.accessioned 2023-12-14T12:41:13Z
dc.date.available 2023-12-14T12:41:13Z
dc.date.created 2023-09-28
dc.date.issued 2023-12-14 es_ES
dc.identifier.uri http://hdl.handle.net/10251/200760
dc.description.abstract [ES] La cátedra de accionamientos de Energía Eólica investiga el comportamiento de los trenes de accionamiento de las modernas multimegaváticas turbinas eólicas (WT, en inglés Wind Turbines). Los objetivos de la investigación son aumentar la disponibilidad, la robustez y la eficiencia energética de los aerogeneradores y reducir el coste nivelado de la electricidad. Para ello, se utilizan combinadamente herramientas de desarrollo de software y plataformas de pruebas de sistemas modernos. Las turbinas eólicas (WT) actuales utilizan exclusivamente rodamientos de rodillos como cojinetes principales. Sin embargo, cuando ocurren daños, estos generan altos costes de reparación. Por este motivo, se está investigando el uso de cojinetes lisos como cojinete principal de los aerogeneradores. Entre otras cosas, estos permiten el reemplazo de segmentos de rodamientos individuales, lo que reduce significativamente los costes de reparación en caso de daños. Por lo tanto, en el CWD (Center for Wind Power Drives), se desarrollará una unidad de cojinete principal con cojinetes lisos en una escala relevante (5 MW). Por lo tanto, el objetivo de este trabajo es investigar unidades de cojinetes principales con cojinetes lisos mediante simulaciones EHD. Se deben simular diferentes geometrías de rodamientos y examinar su idoneidad. es_ES
dc.description.abstract [EN] Wind power has emerged as a significant and rapidly growing source of renewable energy worldwide. As the demand for clean and sustainable energy continues to increase, the efficient and reliable operation of wind turbines becomes paramount. However, one critical component that often experiences premature failure is the main bearing of wind turbines, which can have failure rates of up to 30%. The high repair costs associated with roller bearings used in wind turbine main bearings pose a significant challenge for the wind energy industry. These costs not only include the actual repair expenses but also the downtime required for the repairs, which can lead to substantial financial losses. It is imperative to explore alternative solutions that can minimize repair costs and reduce downtime. One potential solution that has gained attention is the use of segmented plain bearings, such as the innovative FlexPad design. The FlexPad design offers the advantage of easy exchangeability of its sliding segments, allowing for on-tower repair without the need to dismount the entire rotor. This convenience can potentially save significant time and resources. However, during the transfer of the FlexPad design to wind turbines with power ratings exceeding 5 MW, a challenge surfaced. The larger turbines needed stiffer sliding segments in order to handle the increased loads and forces generated by the larger size of the turbines. This would result in thicker sliding segments and an increase in weight, presenting a new obstacle to easy serviceability and restricts one of the key advantages of plain bearings. Therefore, in order to address this issue and maintain the convenience and efficiency offered by the FlexPad design, it is crucial to explore and understand the influence of sliding segment design on the hydrodynamic load bearing capacity. To achieve this objective, a simulative investigation using elastohydrodynamic (EHD) simulations was employed to explore various bearing geometries and assess their performance. This research will specifically focus on studying the relationship between sliding segment design, its deformation under load, and the resulting hydrodynamic pressure build up. By comprehensively analyzing these factors, it will be possible to ascertain whether segment weight can be minimized without compromising the overall performance of the bearing. In conclusion, the findings of this study will contribute valuable insights into the optimization of the FlexPad bearing design for wind turbines. The ultimate goal is to gain deeper insights into the FlexPads sliding segment design and its relationship to the FlexPad’s hydrodynamic performance es_ES
dc.format.extent 59 es_ES
dc.language Inglés es_ES
dc.publisher Universitat Politècnica de València es_ES
dc.rights Reserva de todos los derechos es_ES
dc.subject Energía es_ES
dc.subject Turbinas es_ES
dc.subject Eólica es_ES
dc.subject Cojinetes es_ES
dc.subject Simulación es_ES
dc.subject EHD es_ES
dc.subject Energy es_ES
dc.subject Turbines es_ES
dc.subject Wind es_ES
dc.subject Bearing es_ES
dc.subject Simulation es_ES
dc.subject.classification MAQUINAS Y MOTORES TERMICOS es_ES
dc.subject.other Máster Universitario en Ingeniería Industrial-Màster Universitari en Enginyeria Industrial es_ES
dc.title Simulative investigation of plain bearing main bearing units for wind turbines in the 5MW class es_ES
dc.title.alternative Investigación simulada de unidades de cojinetes principales de cojinetes lisos para turbinas eólicas en la clase de 5MW es_ES
dc.title.alternative Investigació simulada d'unitats de coixinets principals per a turbines eòliques de la classe de 5MW es_ES
dc.type Tesis de máster es_ES
dc.rights.accessRights Cerrado es_ES
dc.contributor.affiliation Universitat Politècnica de València. Departamento de Máquinas y Motores Térmicos - Departament de Màquines i Motors Tèrmics es_ES
dc.contributor.affiliation Universitat Politècnica de València. Escuela Técnica Superior de Ingenieros Industriales - Escola Tècnica Superior d'Enginyers Industrials es_ES
dc.description.bibliographicCitation Oliver Rodrigo, A. (2023). Simulative investigation of plain bearing main bearing units for wind turbines in the 5MW class. Universitat Politècnica de València. http://hdl.handle.net/10251/200760 es_ES
dc.description.accrualMethod TFGM es_ES
dc.relation.pasarela TFGM\154285 es_ES


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