How large would the offshore wind turbines be?

We do not yet know the exact size of the wind turbines proposed for the Humboldt Wind Energy Area (WEA) (1), as no specifics have been yet proposed by the developers. However, based on the other projects currently planned around the world, each wind turbine would likely stand (2) (or float) at least 900 feet above the ocean’s surface (about 90 stories, or almost as tall as the Eiffel Tower) with (3) a rotor diameter of about 775 feet and a swept area of more than 470,000 square feet (the size of more than eight American football fields). For a more local reference point, the former pulp mill smokestack in Samoa is about 270 feet tall, so the wind turbines would likely be at least about three times that height.

Wind turbines continue to increase in size with new and emerging engineering innovations, and developers are likely to build the tallest turbines physically and economically possible at the date of installation,

A graph comparing wind turbine heights to the Golden Gate Bridge, Eiffel Tower and Empire State Building.

Image courtesy of Abigail Lowell / EPIC

with current aims for at least 20-megawatt (MW) turbines that could power between 4.5-6 million homes for a whole year. In 2023 the Chinese company Ming Yang Smart Energy Group presented a conceptual 22-MW turbine called the MySE 22MW (4), which is projected to be 1,050 feet tall with a rotor diameter of 1,017 feet and a swept area of more than 800,000 square feet.

One advantage of larger wind turbines is that they produce more energy per rotation than smaller wind turbines, such that they produce more energy using fewer materials and less sea space (5). This means that you can generate more electricity using less steel, fewer cables, fewer maintenance trips, and all of the other aspects of offshore wind that cause environmental impacts. This greatly reduces the amount of environmental impact (5) per megawatt of electricity generated. Taller turbines can also access faster, more consistent winds farther away from the friction of the air-sea interface. Of course, larger wind turbines will cause greater visual impacts while the turbine is being constructed and stored in the bay awaiting installation due to their greater size. Current plans indicate that there would be space for up to 12 turbines to be stored in the bay at any given time.

Watch the video below about why floating offshore wind turbines are so large, and only getting bigger (6):

References

Bureau of Ocean Energy Management. (n.d.). Humboldt Wind Energy Area. www.boem.gov/renewable-energy/state-activities/humboldt-wind-energy-area
Lazo, A. (2024, February 8). Legislators unveil measure to ask voters for $1 billion offshore wind bond. CalMatters. https://calmatters.org/environment/2024/02/offshore-wind-bond-california/
Vestas. (2024). V236-15.0 MW™. www.vestas.com/en/energy-solutions/offshore-wind-turbines/V236-15MW
Renewables Now. (2023, October 23). Mingyang presents 22-MW offshore wind turbine concept. https://renewablesnow.com/news/mingyang-presents-22-mw-offshore-wind-turbine-concept-837415/
Akhtar, N., Geyer, B., Schrum, C. (2024). Larger wind turbines as a solution to reduce environmental impacts. Sci Rep, 14: 6608. https://doi.org/10.1038/s41598-024-56731-w
Undecided with Matt Ferrell. (2023, April 25). Why Are Floating Wind Turbines So Huge? [Video]. YouTube. www.youtube.com/watch?v=83FqqfODmmg