UTC Aerospace Systems to design and build nacelle systems for Boeing 787-10 Dreamliner
UTC Aerospace Systems' Aerostructures business has been selected by The Boeing Company to extend its provision of complete nacelle systems for the 787 Dreamliner to include the 787-10 variant. The Aerostructures business was awarded the contract to provide inlets, thrust reversers, fan cowls and exhaust systems for both the GE and Rolls-Royce engine options on the 787-8 and 787-9 in 2004. As with the previous contract, the 787-10 agreement covers design and manufacture of nacelle systems for those engine variants for the higher capacity version of the Dreamliner. The Aerostructures business headquartered in Chula Vista, California will also supply aftermarket support of the 787-10 nacelle systems through its global network of maintenance, repair and overhaul facilities and spares distribution centers. UTC Aerospace Systems is a unit of United Technologies Corp. (NYSE: UTX).
"After being part of the Boeing 787 Dreamliner journey from concept to production for the past ten years, we're gratified Boeing has selected us to continue the next leg with them," said Aerostructures President Marc Duvall. "With outstanding dispatch reliability for our nacelle components on the in-service 787-8, we look forward to providing Boeing with the nacelle systems for the newest member of its Dreamliner family."
Global Commercial Aviation Aircraft Windows & Windshields Industry 2015 Market Research Report
The Boeing 787-10 Dreamliner is the third and longest member of the super-efficient 787 family. Launched in June 2013, the 787-10 can carry 323 passengers up to 7,000 nautical miles, which covers more than 90 percent of the world's passenger routes.
In addition to the nacelle system, UTC Aerospace Systems also provides more than 20 proprietary components and systems for the Boeing 787 Dreamliner commercial jet.
Your company’s press release on ASDNews and to thousands of other journalists and editors? Use our ASDWire press release distribution service.
Source : UTC Aerospace Systems