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AI-Driven Model Prediction of Motions and Mooring Loads of a Spar Floating Wind Turbine in Waves and Wind

Medina Manuel, Antonio ORCID: https://orcid.org/0000-0002-1756-3155, Molina Sanchez, Rafael ORCID: https://orcid.org/0000-0002-6212-5218 and Souto Iglesias, Antonio ORCID: https://orcid.org/0000-0001-7207-5341 (2024). AI-Driven Model Prediction of Motions and Mooring Loads of a Spar Floating Wind Turbine in Waves and Wind. "Journal of Marine Science and Engineering", v. 12 (n. 9); p. 1464. ISSN 20771312. https://doi.org/10.3390/jmse12091464.

Descripción

Título: AI-Driven Model Prediction of Motions and Mooring Loads of a Spar Floating Wind Turbine in Waves and Wind
Autor/es:
Tipo de Documento: Artículo
Título de Revista/Publicación: Journal of Marine Science and Engineering
Fecha: 1 Septiembre 2024
ISSN: 20771312
Volumen: 12
Número: 9
Materias:
Palabras Clave Informales: floating offshore wind turbine; FOWT; fully coupled numerical simulations; data-driven model; LSTM neural networks; time-series prediction; seakeeping motions prediction; mooring loads prediction; seakeeping motions prediction; time-series prediction
Escuela: E.T.S.I. Navales (UPM)
Departamento: Arquitectura, Construcción y Sistemas Oceánicos y Navales (Dacson)
Grupo Investigación UPM: Canal de Ensayos Hidrodinámicos de la E.T.S.I. Navales CEHINAV
Licencias Creative Commons: Reconocimiento - Sin obra derivada - No comercial

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Resumen

This paper describes a Long Short-Term Memory (LSTM) neural network model used to simulate the dynamics of the OC3 reference design of a Floating Offshore Wind Turbine (FOWT) spar unit. It crafts an advanced neural network with an encoder-decoder architecture capable of predicting the spar's motion and fairlead tensions time series. These predictions are based on wind and wave excitations across various operational and extreme conditions. The LSTM network, trained on an extensive dataset from over 300 fully coupled simulation scenarios using OpenFAST, ensures a robust framework that captures the complex dynamics of a floating platform under diverse environmental scenarios. This framework's effectiveness is further verified by thoroughly evaluating the model's performance, leveraging comparative statistics and accuracy assessments to highlight its reliability. This methodology contributes to substantial reductions in computational time. While this research provides insights that facilitate the design process of offshore wind turbines, its primary aim is to introduce a new predictive approach, marking a step forward in the quest for more efficient and dependable renewable energy solutions.

Proyectos asociados

Tipo
Código
Acrónimo
Responsable
Título
Gobierno de España
PID2021-123437OB-C21
FOWT-DAMP2
Sin especificar
Hidrodinámica de elementos de amortiguamiento del movimiento de aerogeneradores flotantes: modelo numérico y experimentos a pequeña escala. https://www.aei.gob.es/sites/default/files/convocatory_info/2022-11/report_PID2021-RC-COMPLETO_fda.pdf
Gobierno de España
TED2021-130951B-I00
FOWT-PLATE-MOOR
Duque Campayo, Daniel (Investigador principal (IP)); SOUTO IGLESIAS, ANTONIO (Investigador principal (IP))
Hidrodinámica de heave-plates y líneas de fondeo para turbinas eólicas flotantes. https://portalcientifico.upm.es/en/ipublic/item/9976261

Más información

ID de Registro: 86621
Identificador DC: https://oa.upm.es/86621/
Identificador OAI: oai:oa.upm.es:86621
URL Portal Científico: https://portalcientifico.upm.es/es/ipublic/item/10254921
Identificador DOI: 10.3390/jmse12091464
URL Oficial: https://www.mdpi.com/2077-1312/12/9/1464
Depositado por: iMarina Portal Científico
Depositado el: 22 Ene 2025 13:42
Ultima Modificación: 22 Ene 2025 13:42

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