Abstract
It is difficult to optimize the fault model parameters when Extreme Random Forest is used to detect the electric pitch system fault model of the double-fed wind turbine generator set. Therefore, Extreme Random Forest which was optimized by improved grey wolf algorithm (IGWO-ERF) was proposed to solve the problems mentioned above. First, IGWO-ERF imports the Cosine model to nonlinearize the linearly changing convergence factor α to balance the global exploration and local exploitation capabilities of the algorithm. Then, in the later stage of the algorithm iteration, α wolf generates its mirror wolf based on the lens imaging learning strategy to increase the diversity of the population and prevent local optimum of the population. The electric pitch system fault detection method of the wind turbine generator set sets the generator power of the variable pitch system as the main state parameter. First, it uses the Pearson correlation coefficient method to eliminate the features with low correlation with the electric pitch system generator power. Then, the remaining features are ranked by the importance of the RF features. Finally, the top N features are selected to construct the electric pitch system fault data set. The data set is divided into a training set and a test set. The training set is used to train the proposed fault detection model, and the test set is used for testing. Compared with other parameter optimization algorithms, the proposed method has lower FNR and FPR in the electric pitch system fault detection of the wind turbine generator set.
Highlights
IntroductionAs a renewable energy source, wind energy has many advantages, such as being pollution-free and renewable
To compare Improved Grey Wolf Optimization (IGWO) with Sine and Cosine Optimization Algorithm (SCA), Harris Hawks Optimization (HHO), and PSO, these algorithms are substituted into the wind turbine generator set electric pitch system fault detection (FD)
It is difficult to optimize the parameters of a double-fed wind turbine generator set electric pitch system fault model in Extreme Random Forest detection
Summary
As a renewable energy source, wind energy has many advantages, such as being pollution-free and renewable. It has a wide distribution and large reserves, which lead to broad application prospects [1]. Because of poor working conditions, it is easy to cause damage to the components of the fan. If there is an accident, such as a shutdown caused by a fault, it will affect the normal operation of the wind turbine generator set, and cost a lot in maintenance [2,3]. It is of great significance to accurately detect the fault location of the wind turbine generator set
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