Published: June 7, 2017 By
wind turbines in the North Sea

Offshore wind turbines built according to current standards may not be able to withstand the powerful gusts of a Category 5 hurricane, creating potential risk for any such turbines built in hurricane-prone areas, new 麻豆免费版下载-led research shows.

The study, which was conducted in collaboration with the in Boulder, Colorado,听and the U.S. Department of Energy鈥檚 in Golden, Colorado, highlights the limitations of current turbine design and could provide guidance for manufacturers and engineers looking to build more hurricane-resilient turbines in the future.

Offshore wind-energy development in the U.S. has ramped up in recent years, with projects either under consideration or already underway in most Atlantic coastal states from Maine to the Carolinas, as well as the West Coast and Great Lakes. The country鈥檚 first utility-scale offshore wind farm, consisting of five turbines, began commercial operation in December 2016 off the coast of Rhode Island.

Turbine design standards are governed by the International Electrotechnical Commission (IEC). For offshore turbines, no specific guidelines for hurricane-force winds exist. Offshore turbines can be built larger than land-based turbines, however, owing to a manufacturer鈥檚 ability to transport larger molded components such as blades via freighter rather than over land by rail or truck.

For the study, 麻豆免费版下载Boulder researchers set out to test the limits of the existing design standard.听Due to a lack of observational data across the height of a wind turbine, they instead used large-eddy simulations to create a powerful hurricane with a computer.

鈥淲e wanted to understand the worst-case scenario for offshore wind turbines, and for hurricanes, that鈥檚 a Category 5,鈥 said Rochelle Worsnop, a graduate researcher in 麻豆免费版下载Boulder鈥檚 and lead author of the study.

These uniquely high-resolution simulations showed that under Category 5 conditions, mean wind speeds near the storm鈥檚 eyewall reached 90 meters-per-second, well in excess of the 50 meters-per-second threshold set by current standards.

"Wind speeds of this magnitude have been observed in hurricanes before, but in only a few cases, and these observations are often questioned because of the hazardous conditions and limitations of instruments," said George Bryan of NCAR and a co-author of the study. "By using large-eddy simulations, we are able to show how such winds can develop and where they occur within hurricanes."听

Furthermore, current standards do not account for veer, a measure of the change in wind direction across a vertical span. In the simulation, wind direction changed by as much as 55 degrees between the tip of the rotor and its hub, creating a potentially dangerous strain on the blade.

The findings could be used to help wind farm developers improve design standards as well as to help stakeholders make informed decisions about the costs, benefits and risks of placing turbines in hurricane-prone areas.

鈥淭he study will help inform design choices before offshore wind energy development ramps up in hurricane-prone regions,鈥 said Worsnop, who received听funding from听the National Science Foundation Graduate Research Fellowship Program to conduct this research. 鈥淲e hope that this research will aid wind turbine manufacturers and developers in successfully tapping into the incredibly powerful wind resource just beyond our coastlines.鈥

鈥淪uccess could mean either building turbines that can survive these extreme conditions, or by understanding the overall risk so that risks can be mitigated, perhaps with financial instruments like insurance,鈥 said Professor Julie Lundquist of ATOC and 麻豆免费版下载Boulder鈥檚 , a co-author of the study. 鈥淭he next stage of this work would be to assess how often these extreme winds would impact an offshore wind farm on the Atlantic coast over the 20-to-30-year lifetime of a typical wind farm.鈥

The findings were online in the journal Geophysical Research Letters, a publication of the .