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extrica.com
article
https://www.extrica.com/article/20595
# Dynamic performance analysis for wind turbine in complex conditions. This article presents a method to get dynamic responses of a wind turbine under different conditions. The time-varying load acting on the blade is calculated by using the blade element momentum theory, and the dynamic performance of the wind turbine are calculated by applying the modal superposition method with blade loads as excitations. The dynamic response process is adopted to carry out a dynamic analysis, and theoretical results are compared with experimental results, indicated that the analysis presented in this paper is correct. The results indicate that the wind turbine experiences a huge transverse vibration under turbulent wind, the hub vibration is intensified up to 179.52 %, and the vibration of the blade tip intensifies up to 190.41 % under the action of gusts in extreme conditions relative to the steady state, which shall be considered during design. * This article presents a computing method to get dynamic responses of a wind turbine under different conditions.
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scribd.com
article
https://www.scribd.com/document/476164722/optimization-design-modeling-and-dy…
The aerodynamic contour design and performance analysis of wind turbine blades are important parts of the design theory and application of wind turbine.
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academia.edu
research
https://www.academia.edu/27579327/2_1_MW_Wind_Turbine_Performance_and_Dynamic…
Performance of a wind turbine is dependent upon the parameters namely power coefficient, Cp, Torque coefficient, Ct and Thrust coefficient, CT. The operating
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asmedigitalcollection.asme.org
article
https://asmedigitalcollection.asme.org/solarenergyengineering/article/143/2/0…
This article presents a study of modeling and optimization for the dynamic performance of wind turbine composite material blades
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sciencedirect.com
article
https://www.sciencedirect.com/science/article/pii/S1877705811025987
Dynamic analysis was performed for the blade by using the finite element method. This study has been successfully applied to production of 20KW composite wind
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ijpsat.org
article
https://ijpsat.org/index.php/ijpsat/article/view/6655
This study aims to optimize the wind turbine design using the NACA 6409 airfoil through simulation based on the Q-Blade software. Wind turbines are a key
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digitalrepository.unm.edu
research
https://digitalrepository.unm.edu/me_etds/263
UNM Digital Repository University of New Mexico UNM Digital Repository. # WIND FARM OPTIMIZATION AND ANALYSIS OF COMPLEX WAKE STRUCTURES. ## Author. A high-fidelity computational solver was developed with direct numerical simulation (DNS), large eddy simulation (LES), and Concurrent Precursor Method (CPM) capabilities. Extensive validation ensured the solver's accuracy in modeling fluid dynamics, including the wake characteristics of both utility and miniature-scale wind turbines. The study examined the influence of ground clearance on turbine performance, comparing two scenarios with different hub heights. Finally, the study uses a nine-turbine array model to explore wind farm behavior under varying wind conditions and yaw angles. This analysis highlighted that wind speed variations and yaw adjustments impact wake characteristics and power output, with implications for optimizing wind farm efficiency. Large-Eddy Simulation, Wind-Farm Optimization, Variability of Wind Speed and Yaw Angle, Ground Clearance of Wind Turbine. ## Degree Name. ## Level of Degree. ## First Committee Member (Chair). ## Second Committee Member. ## Third Committee Member. ## Fourth Committee Member. ## Author Corner.
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mdpi.com
article
https://www.mdpi.com/2071-1050/18/2/1067
This study supports sustainability by enabling accurate wind speed forecasting for optimal turbine placement, improving energy efficiency, and promoting long-