Siemens Gamesa and Ørsted sign first U.S. offshore turbine supplier contract

Offshore
  • ·Ørsted will develop Dominion Energy’s Coastal Virginia Offshore Wind Project using Siemens Gamesa wind turbines

Demonstrating that the offshore wind industry is gaining significant momentum in the United States, Siemens Gamesa and Ørsted today announced the signing of a subcontract to supply wind turbines for the Coastal Virginia Offshore Wind project founded by Dominion Energy. Ørsted and Dominion Energy entered into a strategic partnership in 2017 to provide Virginia customers with a clean, renewable source of energy. This will be the first offshore wind project to be built in federal waters, marking a significant achievement for the offshore wind industry in the United States, and it will be the first U.S. project for all companies. Ørsted will construct the wind project using two units of Siemens Gamesa’s 6-MW SWT-6.0-154 wind turbines, totaling 12 MW of potential generated power.

"We are delighted to be moving forward on the Coastal Virginia Offshore Wind initiative," said Thomas Brostrøm, President of Ørsted North America. "Siemens Gamesa’s record of exceptional technology, combined with our prior successful partnership experience around the world, will demonstrate how Virginia residents and businesses can experience the benefits of clean, reliable, cost competitive offshore wind energy.” 

Siemens Gamesa and Ørsted have a longstanding partnership. In 2013, Ørsted developed the first pilot project for Siemens Gamesa’s 6-MW platform, Gunfleet Sands III, located off the coast of the United Kingdom. Siemens Gamesa and Ørsted have contracted, manufactured, installed and commissioned a total volume of approximately 2,700 MW of offshore wind power capacity across the globe.

“We are extremely proud to provide our turbines to Ørsted and Dominion Energy offshore wind project, and it marks a major milestone in our company’s history”, said Joergen Scheel, Siemens Gamesa Renewable Energy, Vice President, Offshore, North America. “We have always believed in the future of offshore wind power in the United States, and with so much wind potential off the Virginia coast, we are excited to finally add our state-of-the-art turbine technology to the country’s energy mix”.

The Siemens Gamesa blades for this project will be produced at the company’s manufacturing facility in Aalborg, Denmark, and the nacelle assemblies will originate from the Siemens Gamesa facility in Cuxhaven, Germany. Once in Virginia, the turbine components will be installed by Ørsted on monopile foundations. Deliveries are expected to begin in mid-2020.

The Coastal Virginia Offshore Wind project is a two-turbine demonstration project owned by Dominion Energy and constructed by Ørsted. It will be built within a research lease area adjacent to the 112,700-acre lease area currently held by Dominion Energy, located approximately 27 miles off the Atlantic coast of Virginia. The lease area has a potential wind energy capacity of at least 2 GW.

"When we announced our initiative with Ørsted last year, we knew great things were on the horizon," said Mark Mitchell, Vice President of Generation Construction for Dominion Energy. "Today’s announcement welcoming Siemens Gamesa to the team is further evidence that Virginia is poised to be a leader in the offshore wind industry. It also demonstrates that our customers can be sure that Dominion is committed to a sustainable future”.

The Coastal Virginia Offshore Wind project continues what previously was called the Virginia Offshore Wind Technology Assessment Project. Dominion Energy began work on the project in 2011 as part of a Department of Energy grant to develop and test new wind technologies that could lower costs and withstand hurricanes. Key achievements were made to advance the project during that time, including the Bureau of Ocean Energy Management’s (BOEM) approval of the Research Activities Plan; environmental studies, including avian and bat surveys; and assessments of ocean currents, archaeological conditions, and whale migration patterns.