论文信息 - Optimización heurística con criterios de error de control TMD en turbinas marinas flotantes

Optimización heurística con criterios de error de control TMD en turbinas marinas flotantes

Among the current deployment of renewable energy systems, floating wind turbines are a promising resource. They take advantage of the wind at deep seas, where it reaches higher and more constant speed. However, being located in deep waters they are subject to heavy loads, caused mainly by waves and wind. To reduce the vibrations in the structure, passive control devices can be used, which come from civil engineering. But its design and tuning are not a simple task due to the diverse goals that coexist in the application of these passive control systems. In this work the use of different methods of signal analysis for the optimization of TMD devices (Tuned Mass Damper) is explored through genetic algorithms. Various error criteria have been applied for the optimization in order to obtain a greater reduction of vibrations in the various elements of the floating turbine.

[1] J. Jonkman,et al. Definition of a 5-MW Reference Wind Turbine for Offshore System Development , 2009 .

[2] Matilde Santos,et al. Classification of Plasma Signals by Genetic Algorithms , 2010 .

[3] Matthew A. Lackner,et al. The effect of actuator dynamics on active structural control of offshore wind turbines , 2011 .

[4] Matilde Santos. Un Enfoque Aplicado del Control Inteligente , 2011 .

[5] Ashu Verma,et al. New optimization criterion for load frequency control of power system , 2016, 2016 IEEE 1st International Conference on Power Electronics, Intelligent Control and Energy Systems (ICPEICES).

[6] María Tomás-Rodríguez,et al. Identification and Validation of a Barge Floating Offshore Wind Turbine Model with Optimized Tuned Mass Damper , 2019 .

[7] M. Tomas-Rodriguez,et al. Floating Offshore Wind Turbines Oscillations Damping. , 2019 .

[8] Yuli Hu,et al. Dynamic modeling and vibration suppression for an offshore wind turbine with a tuned mass damper in floating platform , 2019, Applied Ocean Research.

[9] M. Tomás-Rodríguez,et al. Análisis de vibraciones en turbinas marinas , 2020 .