GE has initiated testing its next-generation rotorcraft engine that will power the US Army’s UH-60 Black Hawk, AH-64 Apache and Future Attack Reconnaissance Aircraft (FARA) aircraft in the future.
In 2019, the US Army selected GE’s T901 engine for the Engineering and Manufacturing Development (EMD) phase of the Improved Turbine Engine (ITE) programme to re-engine its Apache and Black Hawk fleets. The Army also selected the 3,000-shaft horsepower T901 for the Future Attack Reconnaissance Aircraft (FARA) programme.
The first engine to test milestone is being performed in a recently upgraded test cell at GE’s Lynn, Massachusetts facility.
GE has upgraded three test cells in Lynn to efficiently complete the comprehensive T901 EMD engine test programme. The test cell upgrades include systems to absorb the increased power and allow no-load operation of the engine, improved instrumentation capability, and upgraded test controls.
T901 EMD engine testing will also be performed at GE’s Evendale, Ohio, facility, as well as government facilities.
“We’re excited to get testing started on this engine. It’s the biggest milestone to date in the ITE program and the result of the strong collaboration between the GE and US Army teams,” said GE T901 programme director Tom Champion. “The early testing data we’ve gathered indicates the engine is performing in line with our expectations and Army requirements.”
Compared to its predecessor, the GE T700, the T901’s 50% power increase restores aircraft performance, while its 25% better specific fuel consumption reduces fuel usage and carbon emissions. Increased component durability will lower life cycle costs.
GE’s use of advanced materials pioneered through its commercial engine lines, including additive manufactured parts and ceramic matrix composites, are key technologies enabling the T901’s performance. The T901 also maintains the same aircraft mounting and installation envelope as the T700.
Testing of the first engine is the start of a multi-year test campaign to reach full Army qualification. During the remainder of testing for the first engine, the integrated test team will perform a number of simulated flight conditions to collect performance data of the highly instrumented test engine.
If you find this article informative, consider subscribing digitally to Aerospace Manufacturing for free. Keep up to date with the latest industry news in your inbox as well as being the first to receive our magazine in digital form.