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Quantifying the Hurricane Catastrophe Risk to Offshore Wind Power

Author

Listed:
  • Stephen Rose
  • Paulina Jaramillo
  • Mitchell J. Small
  • Jay Apt

Abstract

The U.S. Department of Energy has estimated that over 50 GW of offshore wind power will be required for the United States to generate 20% of its electricity from wind. Developers are actively planning offshore wind farms along the U.S. Atlantic and Gulf coasts and several leases have been signed for offshore sites. These planned projects are in areas that are sometimes struck by hurricanes. We present a method to estimate the catastrophe risk to offshore wind power using simulated hurricanes. Using this method, we estimate the fraction of offshore wind power simultaneously offline and the cumulative damage in a region. In Texas, the most vulnerable region we studied, 10% of offshore wind power could be offline simultaneously because of hurricane damage with a 100‐year return period and 6% could be destroyed in any 10‐year period. We also estimate the risks to single wind farms in four representative locations; we find the risks are significant but lower than those estimated in previously published results. Much of the hurricane risk to offshore wind turbines can be mitigated by designing turbines for higher maximum wind speeds, ensuring that turbine nacelles can turn quickly to track the wind direction even when grid power is lost, and building in areas with lower risk.

Suggested Citation

  • Stephen Rose & Paulina Jaramillo & Mitchell J. Small & Jay Apt, 2013. "Quantifying the Hurricane Catastrophe Risk to Offshore Wind Power," Risk Analysis, John Wiley & Sons, vol. 33(12), pages 2126-2141, December.
    • Handle: RePEc:wly:riskan:v:33:y:2013:i:12:p:2126-2141
    DOI: 10.1111/risa.12085
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    Citations

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    Cited by:

    1. Wang, Hao & Wang, Tongguang & Ke, Shitang & Hu, Liang & Xie, Jiaojie & Cai, Xin & Cao, Jiufa & Ren, Yuxin, 2023. "Assessing code-based design wind loads for offshore wind turbines in China against typhoons," Renewable Energy, Elsevier, vol. 212(C), pages 669-682.
    2. Perera, A.T.D. & Hong, Tianzhen, 2023. "Vulnerability and resilience of urban energy ecosystems to extreme climate events: A systematic review and perspectives," Renewable and Sustainable Energy Reviews, Elsevier, vol. 173(C).
    3. Saddam Hussein Abo Sabah & Noram Irwan Ramli & Taksiah A. Majid & Shaharudin Shah Zaini, 2020. "Development of Site-Specific Wind Hazard Map for Peninsular Malaysia via Spatial Modeling," Energies, MDPI, vol. 13(3), pages 1-22, February.
    4. Andrea Staid & Seth D. Guikema, 2015. "Risk Analysis for U.S. Offshore Wind Farms: The Need for an Integrated Approach," Risk Analysis, John Wiley & Sons, vol. 35(4), pages 587-593, April.
    5. Wilkie, David & Galasso, Carmine, 2020. "A probabilistic framework for offshore wind turbine loss assessment," Renewable Energy, Elsevier, vol. 147(P1), pages 1772-1783.
    6. Sjökvist, Linnea & Göteman, Malin, 2019. "Peak forces on a point absorbing wave energy converter impacted by tsunami waves," Renewable Energy, Elsevier, vol. 133(C), pages 1024-1033.
    7. Rebecca J. Barthelmie & Kaitlyn E. Dantuono & Emma J. Renner & Frederick L. Letson & Sara C. Pryor, 2021. "Extreme Wind and Waves in U.S. East Coast Offshore Wind Energy Lease Areas," Energies, MDPI, vol. 14(4), pages 1-25, February.
    8. Hashemi, M.Reza & Kresning, Boma & Hashemi, Javad & Ginis, Isaac, 2021. "Assessment of hurricane generated loads on offshore wind farms; a closer look at most extreme historical hurricanes in New England," Renewable Energy, Elsevier, vol. 175(C), pages 593-609.

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