Bibliografías temáticas / Offshore wind turbine blades (OWTB)

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Literatura académica sobre el tema "Offshore wind turbine blades (OWTB)"

Autor: Grafiati
Publicado: 25 de enero de 2025
Última modificación: 31 de julio de 2025

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Artículos de revistas sobre el tema "Offshore wind turbine blades (OWTB)"

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Aoujdad, Khalid, BA Elhadji-Amadou, Pierre Marechal, et al. "Integrated analysis of materials for offshore wind turbine blades: mechanical and acoustical coupling." Journal of Physics: Conference Series 2904, no. 1 (2024): 012004. http://dx.doi.org/10.1088/1742-6596/2904/1/012004.

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Abstract This work focuses on assessing the structural degradation of offshore wind turbine blade (OWTB) materials caused by exposure to the marine environment using acoustic and mechanical methods. Samples, consisting of a glass fibre reinforced polymer (GFRP) composite laminate with a styrene-acrylo-nitrile (SAN) foam core, are subjected to an accelerated hygrothermal ageing by immersion in seawater at 28-30% salinity, thermostated at 40°C. Non-destructive characterisation using ultrasonic waves and mechanical testing, including 3- and 4-point bending tests, are carried out. These results ar
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Bhattacharya, Subhamoy, Suryakanta Biswal, Muhammed Aleem, et al. "Seismic Design of Offshore Wind Turbines: Good, Bad and Unknowns." Energies 14, no. 12 (2021): 3496. http://dx.doi.org/10.3390/en14123496.

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Large scale offshore wind farms are relatively new infrastructures and are being deployed in regions prone to earthquakes. Offshore wind farms comprise of both offshore wind turbines (OWTs) and balance of plants (BOP) facilities, such as inter-array and export cables, grid connection etc. An OWT structure can be either grounded systems (rigidly anchored to the seabed) or floating systems (with tension legs or catenary cables). OWTs are dynamically-sensitive structures made of a long slender tower with a top-heavy mass, known as Nacelle, to which a heavy rotating mass (hub and blades) is attach
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Vuong, Nguyen Van, and Mai Hong Quan. "Fatigue analysis of jacket support structure for offshore wind turbines." Journal of Science and Technology in Civil Engineering (STCE) - NUCE 13, no. 1 (2019): 46–59. http://dx.doi.org/10.31814/stce.nuce2019-13(1)-05.

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In the past few decades and up to now, the fossil energy has exerted tremendous impacts on human environments and gives rise to greenhouse effects while the wind power, especially in offshore region, is an attractive renewable energy resource. For offshore fixed wind turbine, stronger foundation like jacket structure has a good applicability for deeper water depth. Once water depth increases, dynamic responses of offshore wind turbine (OWT) support structures become an important issue. The primary factor will be the total height of support structure increases when wind turbine is installed at
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4

Wen, K. Z., D. Dehtyriov, and B. W. Byrne. "Assessing aerodynamic influences on offshore foundation design for large wind farms." Journal of Physics: Conference Series 2745, no. 1 (2024): 012023. http://dx.doi.org/10.1088/1742-6596/2745/1/012023.

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Abstract An evaluation of the impact of aerodynamic interactions on offshore wind turbine (OWT) monopile design in large wind farms is presented. The interactions between turbines within a wind farm, and between the atmosphere and the entire wind-farm, act to reduce the mean effective loads across the farm. This reduction impacts the operational performance of OWT foundations in two notable ways: a decrease in turbine structural loads which affects design to serviceability limit state and a shift in excitation frequencies of the passing blades which impacts fatigue performance. To assess the i
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Roni Sahroni, Taufik. "Modeling and Simulation of Offshore Wind Power Platform for 5 MW Baseline NREL Turbine." Scientific World Journal 2015 (2015): 1–11. http://dx.doi.org/10.1155/2015/819384.

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This paper presents the modeling and simulation of offshore wind power platform for oil and gas companies. Wind energy has become the fastest growing renewable energy in the world and major gains in terms of energy generation are achievable when turbines are moved offshore. The objective of this project is to propose new design of an offshore wind power platform. Offshore wind turbine (OWT) is composed of three main structures comprising the rotor/blades, the tower nacelle, and the supporting structure. The modeling analysis was focused on the nacelle and supporting structure. The completed fi
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Algolfat, Amna, Weizhuo Wang, and Alhussein Albarbar. "The Sensitivity of 5MW Wind Turbine Blade Sections to the Existence of Damage." Energies 16, no. 3 (2023): 1367. http://dx.doi.org/10.3390/en16031367.

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Due to the large size of offshore wind turbine blades (OWTBs) and the corrosive nature of salt water, OWTs need to be safer and more reliable that their onshore counterparts. To ensure blade reliability, an accurate and computationally efficient structural dynamic model is an essential ingredient. If damage occurs to the structure, the intrinsic properties will change, e.g., stiffness reduction. Therefore, the blade’s dynamic characteristics will differ from those of the intact ones. Hence, symptoms of the damage are reflected in the dynamic characteristics that can be extracted from the damag
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Lian, Jijian, Ou Cai, Xiaofeng Dong, Qi Jiang, and Yue Zhao. "Health Monitoring and Safety Evaluation of the Offshore Wind Turbine Structure: A Review and Discussion of Future Development." Sustainability 11, no. 2 (2019): 494. http://dx.doi.org/10.3390/su11020494.

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With the depletion of fossil energy, offshore wind power has become an irreplaceable energy source for most countries in the world. In recent years, offshore wind power generation has presented the gradual development trend of larger capacity, taller towers, and longer blades. The more flexible towers and blades have led to the structural operational safety of the offshore wind turbine (OWT) receiving increasing worldwide attention. From this perspective, health monitoring systems and operational safety evaluation techniques of the offshore wind turbine structure, including the monitoring syst
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Zhang, Peng, Zhengjie He, Chunyi Cui, Liang Ren, and Ruqing Yao. "Operational Modal Analysis of Offshore Wind Turbine Tower under Ambient Excitation." Journal of Marine Science and Engineering 10, no. 12 (2022): 1963. http://dx.doi.org/10.3390/jmse10121963.

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The condition of an offshore wind turbine (OWT) should be monitored to assure its reliability against various environmental loads and affections. The modal parameters of the OWT can be used as an indicator of its condition. This paper combines the Kalman filter, the random decrement technique (RDT), and the stochastic subspace identification (SSI) methods and proposes an RDT-SSI method to estimate the operational frequency of an OWT subjected to ambient excitation. This method imposes no requirement on the input/loads; therefore, it is relatively easy for field application. An experimental stu
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Colherinhas, G. B., F. Petrini, and M. V. G. de Morais. "Risk mitigation/performances incrementation of an offshore wind turbine with a flexible monopile foundation by means of a pendulum-tuned mass damper." Journal of Physics: Conference Series 2647, no. 3 (2024): 032011. http://dx.doi.org/10.1088/1742-6596/2647/3/032011.

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Abstract This paper proposes a multi-level system modeling for studying the structural behavior of an Offshore Wind Turbine (OWT) with a flexible monopile foundation considering the Pile-Soil Interaction (PSI). This analysis shows that the structural response is affected by a significant uncertainty due to the randomness of the geometric and mechanical properties of the tower and foundation and by the environmental loads and rotating blades. With a Monte Carlo simulation, the sources of uncertainty of the so-called “environmental” and “exchange” zones are generated for a Performance-Based Wind
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Akkawat, Parit, Andrew Whyte, and Umair Hasan. "Offshore Wind Turbine Key Components’ Life Cycle Cost Analysis (LCCA): Specification Options in Western Australia." Eng 6, no. 6 (2025): 118. https://doi.org/10.3390/eng6060118.

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Laminated Veneer Lumber (LVL) presents an alternative material for offshore wind turbine towers and blades for an energy sector whose greenhouse gas emissions are substantial. In compliance with AS/NZS 4536, this case study facilitates a specifications’ selection framework that embraces a validated, cost–benefit determination via life cycle cost analyses (LCCA) specification comparisons. A structured consultation with three key Western Australian offshore industry experts, compliant with a standard phenomenological qualitative approach, further facilitates offshore wind turbine (OWT), LCCA cos
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Tesis sobre el tema "Offshore wind turbine blades (OWTB)"

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Aoujdad, Khalid. "Caractérisatiοns ultrasοnοres du vieillissement de pales d’hydroliennes et d’éoliennes en milieu marin. : Cοnfrοntatiοn aux essais mécaniques". Electronic Thesis or Diss., Normandie, 2024. http://www.theses.fr/2024NORMLH24.

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Cette thèse porte sur la caractérisation non destructive par ondes ultrasonores des échantillons représentatifs des pales d’éoliennes offshore, avec confrontation aux tests mécaniques. Les échantillons sont en matériaux composites à base de la résine polyester renforcée par des fibres de verre UD GFRP (Unidirectional Glass Fibers Reinforced Polyester). Ils sont soumis à un vieillissement accéléré dans l’eau de mer chauffée à 40 °C et à 60 °C, afin de simuler le milieu marin et réduire la durée d’étude. L’objectif est de trouver des paramètres acoustiques sensibles au vieillissement permettant
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2

Fossum, Peter Kalsaas. "Aeroelastic analysis of an offshore wind turbine : Design and Fatigue Performance of Large Utility-Scale Wind Turbine Blades." Thesis, Norges teknisk-naturvitenskapelige universitet, Institutt for energi- og prosessteknikk, 2012. http://urn.kb.se/resolve?urn=urn:nbn:no:ntnu:diva-18547.

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Aeroelastic design and fatigue analysis of large utility-scale wind turbine blades are performed. The applied fatigue model is based on established methods and is incorporated in an iterative numerical design tool for realistic wind turbine blades. All aerodynamic and structural design properties are available in literature. The software tool FAST is used for advanced aero-servo-elastic load calculations and stress-histories are calculated with elementary beam theory.According to wind energy design standards, a turbulent wind load case is implemented. Fatigue loads are estimated based on 100%
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Libros sobre el tema "Offshore wind turbine blades (OWTB)"

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Wind Energy Modeling and Simulation: Turbine and System. Institution of Engineering & Technology, 2020.

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Veers, Paul. Wind Energy Modeling and Simulation: Turbine and System, Volume 2. Institution of Engineering & Technology, 2019.

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Capítulos de libros sobre el tema "Offshore wind turbine blades (OWTB)"

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González Horcas, Sergio, Mads Holst Aagaard Madsen, Niels Nørmark Sørensen, and Frederik Zahle. "Suppressing Vortex Induced Vibrations of Wind Turbine Blades with Flaps." In Recent Advances in CFD for Wind and Tidal Offshore Turbines. Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-11887-7_2.

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Lin, Jiahuan, Yangwei Wang, Huawei Duan, and Jun Zhang. "Optimization Design of Blades for a Scaled Offshore Floating Wind Turbine." In Advances in Mechanical Design. Springer Singapore, 2022. http://dx.doi.org/10.1007/978-981-16-7381-8_13.

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Vakilzadeh, Majid Khorsand, Anders T. Johansson, Carl-Johan Lindholm, Johan Hedlund, and Thomas J. S. Abrahamsson. "Development of Simplified Models for Wind Turbine Blades with Application to NREL 5 MW Offshore Research Wind Turbine." In Dynamics of Coupled Structures, Volume 1. Springer International Publishing, 2014. http://dx.doi.org/10.1007/978-3-319-04501-6_37.

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Järvinen, Mika, Hanna Paulomäki, Rogier Ralph Floors, et al. "Wind Energy." In Green Energy and Technology. Springer Nature Switzerland, 2025. https://doi.org/10.1007/978-3-031-69856-9_5.

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Abstract Wind power is a mature technology that has been harnessed by humans for millennia, offering numerous environmental advantages over the use of fossil fuels. This chapter on wind power focuses on horizontal axis technology, covering the technical operating principles, basic design of turbine blades, an analysis of wind as an energy resource, and aspects of turbine siting and wake effects in the design of on- and offshore wind-power plants. Additionally, the utilization of wind atlases is described, along with methodologies for estimating the capacity factor, defined as the proportion of
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5

Finnegan, William, Tomas Flanagan, and Jamie Goggins. "Development of a Novel Solution for Leading Edge Erosion on Offshore Wind Turbine Blades." In Lecture Notes in Mechanical Engineering. Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-13-8331-1_38.

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Celik, Eren, Gamze Sacmaozu, and Alaeddin Burak Irez. "Development of Carbon-Glass Fiber Reinforced Hybrid Composites: Applications in Offshore Wind Turbine Blades." In Mechanics of Composite, Hybrid and Multifunctional Materials, Fracture, Fatigue, Failure and Damage Evolution, Volume 3. Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-86741-6_4.

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Wang, Peilin, Minnan Yue, Chun Li, Yangtian Yan, Kailun Niu, and Xinyu Pei. "Comparative Analysis of Transient Dynamics of Large-Scale Offshore Wind Turbines with Different Foundation Structure under Seismic." In Rotating Machines [Working Title]. IntechOpen, 2022. http://dx.doi.org/10.5772/intechopen.101730.

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In this paper, a structural dynamic response comparison between jacket foundation large-scale offshore wind turbines (OWTs) and monopile ones under wind and seismic loads is demonstrated. The interaction between flexible soil and pile foundation is described by Winkler soil-structure interaction (SSI) model. The National Renewable Energy Laboratory (NREL) 5 MW large-scale OWT is studied via the finite element model. The structural transient dynamic response of these two structures under normal operating conditions at rated wind speed and earthquake is calculated. The results show that under th
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Greaves, P. "Design of offshore wind turbine blades." In Offshore Wind Farms. Elsevier, 2016. http://dx.doi.org/10.1016/b978-0-08-100779-2.00006-4.

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Nijssen, R., and G. D. de Winkel. "Developments in materials for offshore wind turbine blades." In Offshore Wind Farms. Elsevier, 2016. http://dx.doi.org/10.1016/b978-0-08-100779-2.00005-2.

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Sanchez Granados, P., C. Q. Gómez Muñoz, and F. P. García Márquez. "Detection of structural defects in wind turbine blades employing guided waves and machine learning methods." In Developments in Renewable Energies Offshore. CRC Press, 2020. http://dx.doi.org/10.1201/9781003134572-58.

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Actas de conferencias sobre el tema "Offshore wind turbine blades (OWTB)"

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Richards, Phillip, Todd Griffith, and Dewey Hodges. "Operating Strategies and Design Recommendations for Mitigating Local Damage Effects in Offshore Turbine Blades." In Vertical Flight Society 70th Annual Forum & Technology Display. The Vertical Flight Society, 2014. http://dx.doi.org/10.4050/f-0070-2014-9690.

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Two major barriers to widespread US acceptance of offshore wind energy is reliability of rotor blades and the difficulty to access for inspection and maintenance. This work presents operation and design strategies aimed to increase blade reliability and maximize power production. Operating strategies that prolong blade life while optimizing energy output allow for smarter maintenance planning and lower maintenance costs. Offshore plants require significant balance of station costs associated with each turbine, leading to large rotor diameters to capture the most energy per turbine. Rotor diame
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2

Verma, Amrit Shankar, Zhiyu Jiang, Zhengru Ren, and Julie J. E. Teuwen. "Leading Edge Erosion of Wind Turbine Blades: Effects of Environmental Parameters on Impact Velocities and Erosion Damage Rate." In ASME 2020 39th International Conference on Ocean, Offshore and Arctic Engineering. American Society of Mechanical Engineers, 2020. http://dx.doi.org/10.1115/omae2020-18173.

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Abstract Leading edge erosion (LEE) of a wind turbine blade (WTB) is a complex phenomenon that contributes to high operation and maintenance costs. The impact between rain droplets and rotating blades exerts cyclic fatigue stresses on the leading edge — causing progressive material loss and reduced aerodynamic performance. One of the most important parameters for erosion modelling and damage prediction is the relative impact velocity between rain droplets and rotating blade and depends upon the environmental conditions. The environmental condition, in general, could vary for onshore and offsho
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3

Zhao, Xiang, My Ha Dao, and Quang Tuyen Le. "Toward Environmental and Structural Digital Twin of Offshore Wind Turbine." In ASME 2023 42nd International Conference on Ocean, Offshore and Arctic Engineering. American Society of Mechanical Engineers, 2023. http://dx.doi.org/10.1115/omae2023-101859.

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Abstract In the wind energy industry, a digital twin (DT) is very useful for managing the operation of a wind turbine and predicting structural health conditions in real-time as well as projections in the near future. A real-time surrogate model is a very crucial part in building a DT. Towards that end, we employ a Reduced-Order Modelling (ROM) approach to construct a surrogate model for the environment-structure system of a bottom-fixed offshore wind turbine (OWT). The entire environment-structure system is broken down into major sub-systems of wind, wave, and structure. Based on the high-fid
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4

Alkhoury, Philip, Abdul-Hamid Soubra, Valentine Rey, and Mourad Aït-Ahmed. "Effect of the Simplified Superstructure and Soil-Structure Interaction Models on the Natural Frequencies of an Offshore Wind Turbine." In ASME 2021 40th International Conference on Ocean, Offshore and Arctic Engineering. American Society of Mechanical Engineers, 2021. http://dx.doi.org/10.1115/omae2021-62472.

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Abstract Monopile-supported offshore wind turbines (OWTs) are dynamically sensitive structures, in which their design is principally based on a dimensioning criterion related to its fundamental frequencies. Therefore, an accurate estimation of the natural frequency is essential to assess the working lifetime of the OWT. For the calculation of the OWT natural frequency, several studies exist but few of them simultaneously consider both the real geometrical configuration of the OWT superstructure (blades, nacelle, tower, and transition piece) and the three-dimensional (3D) soil domain and its in
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5

Imani, Hasan, and Madjid Karimirad. "Spatial Grid Resolution Effects on Dynamics of Offshore Wind Turbines." In ASME 2023 5th International Offshore Wind Technical Conference. American Society of Mechanical Engineers, 2023. http://dx.doi.org/10.1115/iowtc2023-119170.

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Abstract Modelling a proper stochastic inflow wind field for dynamic analysis of an offshore wind turbine (OWT) is affected by turbine specifications and wind characteristics. These considerations and assumptions could potentially have a significant effect on the motions and structural loads and dynamic responses of the system. Previous studies have investigated the impact of various parameters — such as yaw misalignment, aerodynamic properties, blade mass imbalance, turbulence spectra, shear, veer, spatial coherence, component correlation, ant etc. — which could vary at different offshore sit
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6

Li, Yi Syuan, Yi Mei Huang, and Chih Kuang Lin. "Fatigue Analysis of Monopile Foundation for Offshore Wind Turbine." In 2022 International Conference on Machining, Materials and Mechanical Technologies. Trans Tech Publications Ltd, 2024. http://dx.doi.org/10.4028/p-eli74h.

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This study is aimed to estimate the fatigue damage ratio and to analyze the structural integrity for the monopile foundation of NREL 5-MW wind turbine. For simulating the uncertainty of environmental conditions, various random seeds, tide heights, and wave orientations are considered in the analyses. The Design Load Case 1.2 of IEC 61400-3 is applied in this study. A sequential approach is adopted to calculate the fatigue damage ratio. Firstly, the environmental conditions are implemented into the BLADED code. Secondly, ANSYS is employed to compute the stress/deformation using the output loadi
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Li, Xin, Wenhua Wang, Zuxing Pan, and Bin Wang. "Vibration Control of a Jacket Offshore Wind Turbine Under Earthquake Wind and Wave Loads by Tuned Mass Damper." In ASME 2020 39th International Conference on Ocean, Offshore and Arctic Engineering. American Society of Mechanical Engineers, 2020. http://dx.doi.org/10.1115/omae2020-18380.

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Abstract The fully coupled analysis model of a jacket offshore wind turbine (OWT) is established based on the governing equation of motion of the structure which is derived in accordance with the blade element momentum theory (BEM), Morison formula and theories of structural dynamics. The dynamic characteristics and structural responses of the jacket OWT under the different combined seismic cases are analyzed. It can be seen that the interactions of the wind and wave loads are non-negligible in the seismic analysis of an OWT, and the abundant dominant frequencies of the responses of the suppor
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Thakur, Shilpa, and Nilanjan Saha. "Load Reduction on Offshore Wind Turbines by Aerodynamic Flaps." In ASME 2017 36th International Conference on Ocean, Offshore and Arctic Engineering. American Society of Mechanical Engineers, 2017. http://dx.doi.org/10.1115/omae2017-61308.

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This paper focuses on load reduction by implementing controllable trailing-edge flaps on an offshore wind turbine (OWT) supported on different fixed bottom structures in various water depths. The benchmark NREL 5-MW offshore horizontal axis wind turbine is used as a reference. This work utilizes the wind turbine simulation tool FAST with coupled stochastic aerodynamic-hydrodynamic analysis for obtaining the responses. The flap is controlled using an external dynamic link library through PID controller. Blade element momentum (BEM) theory and Morison equation are used to compute the aerodynamic
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Li, Jichao, Quang Tuyen Le, and My Ha Dao. "Aerodynamic Shape Optimization of Offshore Wind Turbine Blades." In ASME 2023 42nd International Conference on Ocean, Offshore and Arctic Engineering. American Society of Mechanical Engineers, 2023. http://dx.doi.org/10.1115/omae2023-107794.

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Abstract Aerodynamic shape optimization of wind turbine blades is a promising way to improve wind energy collection efficiency. As aerodynamic analyses using high-fidelity CFD is computationally expensive, it is difficult to optimize the complicated three-dimensional blade shape in various wind conditions efficiently and robustly. To solve the issue, we present an efficient wind turbine blade shape optimization method using deep learning. The optimization framework involves the feasible-domain-reformulation based modal parameterization method to reduce the number of geometric design variables
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Gaertner, Evan M., and Matthew A. Lackner. "Aero-elastic design optimization of floating offshore wind turbine blades." In 2018 Wind Energy Symposium. American Institute of Aeronautics and Astronautics, 2018. http://dx.doi.org/10.2514/6.2018-2015.

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