Litcius/Paper detail

Wind turbine maximum power point tracking control based on unsupervised neural networks

Eduardo Muñoz-Palomeque, J. Enrique Sierra‐García, Matilde Santos

2022Journal of Computational Design and Engineering23 citationsDOIOpen Access PDF

Abstract

Abstract The main control goal of a wind turbine (WT) is to produce the maximum energy in any operating region. When the wind speed is under its rated value, the control must aim at tracking the maximum power point of the best power curve for a specific WT. This is challenging due to the non-linear characteristics of the system and the environmental disturbances it is subjected to. Direct speed control (DSC) is one of the main techniques applied to address this problem. In this strategy, it is necessary to design a speed controller to adjust the generator torque so to follow the optimum generator speed. In this work, we improve the DSC by implementing this speed controller with a radial basis function neural network (NN). An unsupervised learning algorithm is designed to tune the weights of the NN so it learns the control law that minimizes the generator speed error. With this proposed unsupervised neural control methodology, the electromagnetic torque that allows the optimal power extraction is obtained, and thus the best power coefficient (${C}_\mathrm{p}$) values. The proposal is tested on the OpenFAST non-linear model of the National Renewable Energy Laboratory 1.5 MW WT. Simulation results prove the good performance of this neuro-control approach as it maintains the WT variables into the appropriate range and tracks the rated operation values. It has been compared with the controller included in OpenFAST giving up to 7.87% more power.

Topics & Concepts

Control theory (sociology)Artificial neural networkWind speedController (irrigation)TurbineTorqueWind powerMaximum power principlePower (physics)Range (aeronautics)Electronic speed controlComputer scienceControl engineeringEngineeringArtificial intelligenceControl (management)MeteorologyQuantum mechanicsAgronomyAerospace engineeringPhysicsMechanical engineeringElectrical engineeringThermodynamicsBiologyWind Turbine Control SystemsWind Energy Research and DevelopmentEnergy Load and Power Forecasting