Higher, bigger and more reliable wind turbines are defining the future of offshore wind. Harsh environments demand the technology provider to come up with solutions that have high reliability and less maintenance requirements. It’s a journey GE (NYSE: GE) started years ago. It is yet another example of how GE is helping customers build wind farms in some of the most challenging locations.
Today, GE Power Conversion has successfully completed manufacturing the first serial PMG in GE Renewable’s offshore wind factory in Saint-Nazaire, which was inaugurated in late 2014. The factory is set up to have a capacity of manufacturing 100 generators per year.
As the first series, 300 generators are to be manufactured on-site. The first recently completed generator is to be installed in GE’s Haliade
This highly sophisticated production site uses the air-cushion system that has been implemented to move generators within the site. The innovative way of manufacturing eliminates the need of cranes within the factory, significantly driving down the infrastructure costs. The site is also equipped with a test bench, ensuring every generator coming out of the assembly line is ready to be deployed.
“The factory in Saint Nazaire is the first offshore wind manufacturing site in France. It is a milestone in the nation’s energy history. Now by leveraging technologies from different GE businesses—the GE Store, we are well positioned to bring clean offshore wind energy to the domestic market as well as export to regions beyond France where energy is needed,” said Frederic Maenhaut, Renewables Executive, GE Power Conversion.
The 6-MW PMG is one of the world’s largest generators ever built. Its direct drive system has no mechanical gearbox coupled to the generator. Low component count increases equipment reliability and therefore enables higher energy efficiency, which also leads to increased turbine availability. Less downtime and maintenance requirements ultimately can reduce the cost of wind energy.
The generator is split into three electrical circuits. In the unlikely event of two circuits going offline, the high level of redundancy enables the turbine to continuously produce power even in “degraded” mode. This is a critical element for offshore wind power plants as stormy weather and treacherous water can delay repair work for days or weeks, needless to mention the very high maintenance expenditure.
“Offshore wind is gaining increasing competitiveness in the power mix, and GE is well positioned to serve this industry. We developed this PMG technology five years ago. It is ideal for offshore setting, helping increase wind turbines’ availability and optimizing energy production,” said Maenhaut.
GE’s PMGs have been previously selected to be installed on Block Island, America’s first offshore wind farm, which will help generate 30 MW of electricity in 2016.