Affiliation:
1. Structures Department, HNTB Corporation, Cherry Hill, NJ 08002, USA
2. Transportation Department, HNTB Corporation, Parsippany, NJ 07054, USA
3. Structures Department, Stanley D. Lindsey Associates, Brentwood, TN 37027, USA
Abstract
Technological advancement in recent years has resulted in larger and taller wind turbines (WTs) with enhanced power generation capacities. Application of natural hazard risk quantification for WTs helps stakeholders plan, design, install, and operate wind farms safely and profitably. This study focuses on a review of the risks to WTs from earthquakes, strong wind, hurricanes, tsunamis, and lightning. The structural failure of the blades, towers, and foundations in response to these hazards was investigated. Furthermore, research from the past few decades covering modes of failures, such as foundation overturning, tower tilting, tower buckling, blade buckling, deformations, and delamination of blades, was investigated. It was found that the methodologies used by researchers include analytical, statistical, and data-based models, as well as experimental research. This study shows that, while seismic, wind, and hurricane risks have been explored with analytical, experimental, and statistical models in the past, future research could focus on the latest methods involving data-based models, integration of monitored data, and physics-based models. Tsunami risk assessment focuses on experimental methods, and future research may benefit from data-integrated models and a focus on the transient nature of the risks.
Subject
Energy (miscellaneous),Energy Engineering and Power Technology,Renewable Energy, Sustainability and the Environment,Electrical and Electronic Engineering,Control and Optimization,Engineering (miscellaneous),Building and Construction
Reference151 articles.
1. GWEC (2019). Global Wind Report 2019, Global Wind Energy Council.
2. (2022, December 01). Share of Electricity Production from Wind, (n.d.) Our World in Data. Available online: https://ourworldindata.org/grapher/share-electricity-wind.
3. Wikipedia (2022, December 19). Wind Power in the United States. Available online: https://en.wikipedia.org/wiki/Wind_power_in_the_United_States.
4. World Forum Offshore Wind (WFO) (2022). Global Offshore Wind Report, World Forum Offshore Wind (WFO).
5. Global Wind Energy Council (2020). Offshore Market Outlook to 2030, Global Wind Energy Council.
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