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Rüzgâr türbini kazaları ve rüzgâr enerjisi riskleri akademik camianın dikkatini çekmiştir. Aşağıda konuyla ilgili bazı yayınların bir listesi yer almaktadır. Vurgulu olanlar bu proje ekibinin çalışmalarıdır.

Ertek G, Kailas L. Analyzing a Decade of Wind Turbine Accident News with Topic Modeling. Sustainability. 2021; 13(22):12757.
Ertek, G., Chi, X., Zhang, A. N., & Asian, S. (2017). Text mining analysis of wind turbine accidents: An ontology-based framework. In Big Data, 2017 IEEE International Conference on (pp. 3233–3241).
Asian, S., Ertek, G., Haksoz, C., Pakter, S. & Ulun, S. (2017). Wind turbine accidents: A data mining study. IEEE Systems Journal, 11(3), 1567–1578.
Chen, Li & Xu. Failure investigation on a coastal wind farm damaged by super typhoon: A forensic engineering study. J. of Wind Eng. & Industrial Aerodynamics, 147, 132–142 (2015).
Chen & Xu. Structural failure analysis of wind turbines impacted by super typhoon Usagi. Engineering Failure Analysis, 60, 391–404 (2016).
Ashrafi, Davoudpour & Khodakarami. Risk assessment of wind turbines: from pure mechanistic to modern complexity paradigm. Renewable & Sustainable Energy Reviews, 51, 347–355 (2015).
Jin, Ju, Zhang, Guo & Yang. System safety analysis of large wind turbines. Renewable & Sustainable Energy Reviews, 56, 1293–1307 (2016).
Chou & Tu. Failure analysis and risk management of a collapsed large wind turbine tower. Engineering Failure Analysis, 18(1), 295–313 (2011).
Zhang, Yin, Han & Tan. Fracture analysis of wind turbine main shaft. Engineering Failure Analysis, 34, 129–139 (2013).
Chen, Zhao, Zhao & Xu. Preliminary failure investigation of a 52.3 m glass/epoxy composite wind turbine blade. Engineering Failure Analysis, 44, 345–350 (2014).
Konstantinidis & Botsaris. Wind turbines: current status, obstacles, trends and technologies. IOP Conf. Series: Materials Science & Engineering (2016).
Sarlak & Sørensen. Analysis of throw distances of detached objects from horizontal-axis wind turbines. Wind Energy, 19(1), 151–166 (2016).
Chou, Chiu, Huang & Chi. Failure analysis of wind turbine blade under critical wind loads. Engineering Failure Analysis, 27, 99–118 (2013).
Li, Chen, Ma & Feng. Design defect of wind turbine operating in typhoon activity zone. Engineering Failure Analysis, 27, 165–172 (2013).
Sovacool et al. Balancing safety with sustainability: assessing the risk of accidents for modern low-carbon energy systems. J. of Cleaner Production, 112, 3952–3965 (2016).
Yuan, Na, Xu & Zhao. Wind turbine manufacturing in China: A review. Renewable & Sustainable Energy Reviews, 51, 1235–1244 (2015).
Ciang, Lee & Bang. Structural health monitoring for a wind turbine system: a review of damage detection methods. Measurement Science & Technology, 19(12) (2008).
Carbone & Afferrante. A novel probabilistic approach to assess the blade throw hazard of wind turbines. Renewable Energy, 51, 474–481 (2013).
Tavner et al. Study of weather and location effects on wind turbine failure rates. Wind Energy, 16(2), 175–187 (2013).
Bai, Sun & Sun. Risk assessment of hoisting aboard and installation for offshore wind turbine. ASME 31st Int. Conf. on Ocean, Offshore and Arctic Engineering (2012).
Alves et al. Damage prediction for wind turbines using wireless sensor and actuator networks. J. of Network & Computer Applications, 80, 123–140 (2017).
Mehdi & Schröder-Hinrichs. A theoretical risk management framework for vessels operating near offshore wind farms. MARE-WINT, Springer (2016).
Lehnert et al. Wind farm facilities in Germany kill noctule bats from near and far. PLoS ONE, 9(8) (2014).
Mogre, Talluri & D'Amico. A decision framework to mitigate supply chain risks: an application in the offshore-wind industry. IEEE Trans. Eng. Management, 63(3), 316–325 (2017).