GE’s renewable energy business announced a cumulative 3.9 GW of firm and unconditional wind turbine supply orders in the United States since January 1, 2013, the date of the Production Tax Credit extension. Of these orders, 1.1 GW of GE technology was placed into service in 2013. The remaining 2.8 GW will be commissioned or begin construction by the end of 2015.
In May 2013, GE announced it had 1 GW of orders in the U.S. since the January 1, 2013, PTC extension ruling. One year after that, GE announces that since January 1, 2013, the number of orders contracted has increased to 3.9 GW. GE has expanded its customer base to include developers such as Sumitomo and Starwood Energy, which both will be installing 200 MW of projects using GE’s 1.7-100 wind turbines. Mesquite Creek Wind, jointly developed by Sumitomo and BNB Renewable Energy, is based near Lamesa, Texas, and Starwood Energy’s Stephen Ranch wind farm is located in Borden and Lynn counties, Texas. The 1.7-100 was introduced in 2013 and is part of the GE’s brilliant platform.
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| GE 1.7-100 Wind Turbine (Photo Credit: GE) |
“We feel confident that, with our strong backlog of orders, we are strongly positioned for 2014 and 2015,” said Anne McEntee, president and CEO of GE’s renewable energy business. “As we continue to expand our brilliant wind product line, our customers are seeing efficiencies and capabilities greater than ever before in the wind industry. Through these advancements in technology, combined with strong execution and operations expertise, GE is continuing our commitment to our customers’ success and investment in the future of renewable energy.”
GE also announced the expansion of its brilliant wind platform to include the 2.2-107 wind turbine and wind plant wake management software technology. The 2.2-107 provides a 12% increase in capacity factor and a 33% increase in power output and is well suited for Brazil’s Class II wind regime. Wind plant wake management software improves output at the plant level through turbine-to-turbine communication, harmonizing wind farms of more than 20 turbines to achieve greater output as a single, efficient plant. With the initial applications, customers can expect to see 5 to 10 percent reduced wake loss and improved mechanical loads due to lower wake turbulence.
