In part two of a two-part series, Richard Gardner discusses various aerospace propulsion innovations and continued work by aerospace engineers and scientists to advance aircraft engine technologies to increase efficiency and lower emissions.
Engineers at Jetoptera in Edmonds, Washington, and GE Aviation in Evandale, Ohio, are collaborating on a 500 pound-force (lbf) class fluidic propulsion system leveraging a gas generator based on GE Aviation’s H-Series turboprop engine. Jetoptera’s Fluidic Propulsion System is, officials say, both revolutionary and a remarkably simple approach to producing thrust for powerful, vertical takeoff and landing (VTOL)-capable aircraft.
Aerospace manufacturers walk a metaphorical balance beam to continually develop and produce stronger, more efficient materials and components, while addressing all potential failure modes. This is true for safety-critical aircraft components like landing gear systems. Fokker Landing Gear B.V./GKN Aerospace recently equipped its mechanical laboratory with three creep testing machines to verify its manufacturing process control of zinc-plated bolts for aircraft landing gear systems.
This week, Pratt & Whitney, a division of United Technologies Corp. (UTC), announced the establishment of GatorWorks, a newly formed prototyping arm that will focus on the rapid and agile development of dependable, lower cost military engines.
ZF uses innovative motor cooling, winding technology and its transmission heritage to produce a more efficient and powerful drivetrain for electric vehicles.