Multi-Source Meteorological Data Integration for Lightning Risk Assessment in Wind Power Systems: A Systematic Review

https://doi.org/10.56225/ijgoia.v3i4.530

Authors

  • Ikromjon Rakhmonov Faculty of Energy engineering, Tashkent State Technical University, 100095 Almazar District, Tashkent, Uzbekistan
  • Nurbek Kurbonov Faculty of Energy engineering, Tashkent State Technical University, 100095 Almazar District, Tashkent, Uzbekistan
  • Mirzokhid Jobbarov Faculty of Energy engineering, Tashkent State Technical University, 100095 Almazar District, Tashkent, Uzbekistan

Keywords:

Lightning Protection, Wind Power Plants, Meteorological Data Integration, Machine Learning, Real-Time Monitoring, Systematic Review

Abstract

The increasing deployment of wind power plants has heightened their exposure to lightning-related hazards, which pose significant risks to turbine integrity, operational continuity, and economic performance. Traditional lightning protection systems are often limited by reactive mechanisms and reliance on single-source data, resulting in insufficient detection of complex lightning phenomena such as upward and intra-cloud discharges. This study aims to develop and evaluate a real-time multi-source meteorological data integration framework for advanced lightning risk detection and protection in wind power systems. The proposed approach integrates satellite observations, ground-based Internet of Things sensors, radar and light detection and ranging technologies, lightning detection systems, and historical datasets within a unified architecture. Machine learning models, including logistic regression and Extreme Gradient Boosting (XGBoost), are applied to classify lightning types and compute a composite risk index for decision-making. The results demonstrate that the integrated framework significantly improves prediction accuracy and enables timely identification of lightning precursors, achieving a response latency of less than three seconds. The system supports automated protective actions, such as turbine shutdown and repositioning, thereby reducing potential damage and downtime. Furthermore, the modular and cost-effective design allows scalable deployment across different operational environments. In conclusion, the integration of multi-source meteorological data with artificial intelligence and real-time monitoring technologies provides a robust and adaptive solution for enhancing lightning protection and resilience in wind energy infrastructure under increasingly variable climatic conditions.

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Published

2024-12-31

How to Cite

Ikromjon Rakhmonov, Nurbek Kurbonov, & Mirzokhid Jobbarov. (2024). Multi-Source Meteorological Data Integration for Lightning Risk Assessment in Wind Power Systems: A Systematic Review. International Journal of Global Optimization and Its Application, 3(4), e530. https://doi.org/10.56225/ijgoia.v3i4.530

Issue

Vol. 3 No. 4 (2024): December 2024

Section

Articles

License

Copyright (c) 2024 Authors

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

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