4.6 Article

Tropical cyclone wind hazard assessment for Donghaitang wind farm (Zhejiang Province, China): Case study

Journal

FRONTIERS IN EARTH SCIENCE
Volume 10, Issue -, Pages -

Publisher

FRONTIERS MEDIA SA
DOI: 10.3389/feart.2022.1109026

Keywords

tropical cyclone; wind hazard; wind farm; typhoon; hazard assessment; analytic hierarchy process

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This study simulates the historical tropical cyclone wind fields and proposes four extreme tropical cyclone hazard factors for the Donghaitang wind farm in China. Based on an analytic hierarchy process, a comprehensive hazard assessment model is established to evaluate the risk to the wind farm. The results show an increasing trend in the number and intensity of tropical cyclones, leading to a gradual increase in the composite tropical cyclone risk level of the wind farm.
Currently, offshore and coastal wind power resources are growing rapidly around the world, especially in China. However, systematic research on the hazard assessment of wind farms under tropical cyclone conditions remains lacking. This study simulated the wind field of tropical cyclones based on a parameterized tropical cyclone wind field model, and analyzed the characteristics of historical tropical cyclones in Donghaitang wind farm (Zhejiang, China). Four extreme tropical cyclone hazard factors including the maximum wind speed (V (max)), maximum duration of wind direction change (T (max)), maximum cumulative wind direction change (delta theta(max)) and maximum rate of change in wind direction (delta D-max) were proposed and examined. Then a comprehensive hazard assessment model for wind farms based on the analytic hierarchy process was established, and the risk to the Donghaitang wind farm represented by tropical cyclones during 1949-2021 was evaluated. Results showed that the number and intensity of tropical cyclones made landfall near the coast of Donghaitang wind farm gradually increased with time, which results in a gradual increase in the composite tropical cyclone risk level of the Donghaitang wind farm with time. The numbers and risk levels of tropical cyclones traveling northwestward were much larger than those traveling northward or northeastward. Moreover, the average composite risk index for tropical cyclones passing to the left of the wind farm was 14.3% higher than that for tropical cyclones passing to the right. The large values of V (max) and delta D (max) are main reasons for the high risk of the wind farm, while the other two hazard factors (T (max), delta theta (max)) proposed to account for the wind turbine backup power are also of great importance in the design, selection and operation stages of offshore wind turbines. The findings of this study could provide support for hazard assessment of offshore and coastal wind farms exposed to tropical cyclones, including macro site selection of wind farms and type selection of wind turbines.

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