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Using Transfer Learning and XGBoost for Early Detection of Fires in Offshore Wind Turbine Units

Author

Listed:
  • Anping Wan

    (Department of Mechanical Engineering, Hangzhou City University, Hangzhou 310015, China)

  • Chenyu Du

    (Department of Mechanical Engineering, Hangzhou City University, Hangzhou 310015, China)

  • Wenbin Gong

    (Department of Mechanical Engineering, Hangzhou City University, Hangzhou 310015, China)

  • Chao Wei

    (Huadian Electric Power Research Institute, Hangzhou 310030, China)

  • Khalil AL-Bukhaiti

    (Department of Mechanical Engineering, Hangzhou City University, Hangzhou 310015, China
    School of Civil Engineering, Southwest Jiaotong University, Chengdu 610031, China)

  • Yunsong Ji

    (Guangdong Huadian Fuxin Yangjiang Offshore Wind Power Co., Ltd., Yangjiang 529500, China)

  • Shidong Ma

    (Guangdong Huadian Fuxin Yangjiang Offshore Wind Power Co., Ltd., Yangjiang 529500, China)

  • Fareng Yao

    (Guangdong Huadian Fuxin Yangjiang Offshore Wind Power Co., Ltd., Yangjiang 529500, China)

  • Lizheng Ao

    (Guangdong Huadian Fuxin Yangjiang Offshore Wind Power Co., Ltd., Yangjiang 529500, China)

Abstract

To improve the power generation efficiency of offshore wind turbines and address the problem of high fire monitoring and warning costs, we propose a data-driven fire warning method based on transfer learning for wind turbines in this paper. This paper processes wind turbine operation data in a SCADA system. It uses an extreme gradient-boosting tree (XGBoost) algorithm to build an offshore wind turbine unit fire warning model with a multiparameter prediction function. This paper selects some parameters from the dataset as input variables for the model, with average cabin temperature, average outdoor temperature, average cabin humidity, and average atmospheric humidity as output variables. This paper analyzes the distribution information of input and output variables and their correlation, analyzes the predicted difference, and then provides an early warning for wind turbine fires. This paper uses this fire warning model to transfer learning to different models of offshore wind turbines in the same wind farm to achieve fire warning. The experimental results show that the prediction performance of the multiparameter is accurate, with an average MAPE of 0.016 and an average RMSE of 0.795. It is better than the average MAPE (0.051) and the average RMSE (2.020) of the prediction performance of a backpropagation (BP) neural network, as well as the average MAPE (0.030) and the average RMSE (1.301) of the prediction performance of random forest. The transfer learning model has good prediction performance, with an average MAPE of 0.022 and an average RMSE of 1.469.

Suggested Citation

  • Anping Wan & Chenyu Du & Wenbin Gong & Chao Wei & Khalil AL-Bukhaiti & Yunsong Ji & Shidong Ma & Fareng Yao & Lizheng Ao, 2024. "Using Transfer Learning and XGBoost for Early Detection of Fires in Offshore Wind Turbine Units," Energies, MDPI, vol. 17(10), pages 1-22, May.
    • Handle: RePEc:gam:jeners:v:17:y:2024:i:10:p:2330-:d:1392958
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    References listed on IDEAS

    as
    1. Sun, Wei & Lin, Wei-Cheng & You, Fei & Shu, Chi-Min & Qin, Sheng-Hui, 2019. "Prevention of green energy loss: Estimation of fire hazard potential in wind turbines," Renewable Energy, Elsevier, vol. 140(C), pages 62-69.
    2. Jong-Hyun Kim & Se-Hwan Park & Sang-Jun Park & Byeong-Ju Yun & You-Sik Hong, 2023. "Wind Turbine Fire Prevention System Using Fuzzy Rules and WEKA Data Mining Cluster Analysis," Energies, MDPI, vol. 16(13), pages 1-20, July.
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