Abstract
Fault diagnosis technology is key to the safe and stable operation of wind turbines. An effective fault diagnosis technology for wind turbines can quickly identify fault types to reduce the operation and maintenance costs of wind farms and improve power generation efficiency. Currently, most wind farms obtain operation and maintenance data via supervisory control and data acquisition (SCADA) systems, which contain rich information related to the operation characteristics of wind turbines. However, few SCADA systems provide fault diagnosis functionality. Support vector machines (SVMs) are a popular intelligence method in the fault diagnosis of wind turbines. SVM parameter selection is key for accurate model classification. The sparrow search algorithm (SSA) is a novel and highly efficient optimization method used to optimize the penalty factor and kernel function parameter of SVM in this paper and to construct the SSA-SVM wind turbine fault diagnosis model. Data are acquired from a wind farm SCADA system and form a faulting set after preprocessing and feature selection. Experiments show that the SSA-SVM diagnostic model effectively improves the accuracy of wind turbine fault diagnosis compared with the GS-SVM, GA-SVM and PSO-SVM models and has fast convergence speed and strong optimization ability. Moreover, the SSA-SVM diagnostic model can be used to diagnose faults in practical engineering applications.
Highlights
In recent years, with the deteriorating global ecological environment and the gradual depletion of fossil fuels, countries around the world have increased their research efforts related to renewable energy [1], [2]
Vant wind power capacity statistics released by the World Wind Energy Association (WWEA) at the beginning of 2020, the total installed capacity of wind turbines in the world in 2019 reached 650.8 GW [6]
Wind farms are generally located in remote mountains or offshore areas, with inconvenient transportation and a dispersed arrangement of a great number of wind turbines, away from the control center, in a harsh working environment subject to constantly changing uncontrolled factors, all of which will increase the incidence of wind turbine failures
Summary
With the deteriorating global ecological environment and the gradual depletion of fossil fuels, countries around the world have increased their research efforts related to renewable energy [1], [2]. INDEX TERMS Sparrow search algorithm (SSA), fault diagnosis, wind turbines, support vector machine (SVM), parameter optimization. W. Tuerxun et al.: Fault Diagnosis of Wind Turbines Based on SVM Optimized by SSA
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