GE to Supply Turbine for Ocean Wind Offshore Project in New Jersey
GE Renewable Energy announced that it has finalized supply and service contracts, subject to final notice to proceed with Ocean Wind, the Orsted
GE Renewable Energy announced that it has finalized supply and service contracts, subject to final notice to proceed with Ocean Wind, the Orsted Project located 15 miles off the coast of southern New Jersey. Ocean Wind will feature GE’s Haliade-X 12 MW wind turbine with an option to utilize the 13 MW variant. The agreements will include a five-year Service & Warranty agreement to provide operational support for the wind turbines along with the Orsted Operational and Maintenance team.
The Haliade-X 13 MW uses the same design as the 12 MW, meaning the size and dimensions of the turbines are identical. However, GE Renewable Energy engineers have optimized the turbine by making some enhancements to the cooling system and related electrical equipment so that it can produce even more power using the same design and size. As a result, one spin of the Haliade-X 13 MW can generate enough electricity to power the equivalent of a US household for a day.
The Ocean Wind Offshore Wind Farm is located over 15 miles off the coast of southern New Jersey and will be capable of powering up to the equivalent of half a million New Jersey homes each year when complete.
The Haliade-X blade will continue to be tested and optimized at the Massachusetts Clean Energy Center Wind Technology Testing Center in Boston and at other sites around the country and around the world. In addition, the Haliade-X prototype unit in the Netherlands, which set a world record in January 2020 by being the first wind turbine to produce 288 MWh in one day, will be operating at 13 MW in the coming months as part of its ongoing testing process. The Haliade-X 12 and 13 MW configurations have both received type certificates from DNV-GL, the world’s largest independent certification body, providing independent verification that the new turbines will operate safely, reliably and according to design specifications.