Helicopter propulsion systems are reviewed, and it is noted that helicopter development is paced to a major extent by the power plant. Power available, reliability, fuel consumption, power-to-weight ratio, and life-cycle costs are key parameters. The application of emerging technologies such as microelectronics, ceramics and other new materials and approaches, and the continuing refinement of the aerodynamics and dynamics of gas turbine power plants are discussed and noted to result in a significant benefit to the helicopter and its operator. Important airframe-propulsion system interface requirements are given, and the need is discussed for new innovative certification procedures that provide for emergency operation with acceptable economics. Finally, future propulsion system capabilities are projected and their dramatic benefit for the helicopter noted. Bringing this about is the challenge for propulsion system specialists. (Author)
Helicopter Propulsion Systems
1981
278 pages
Report
No indication
English
Jet & Gas Turbine Engines , Aircraft , Helicopter engines , Turboshaft engines , Gas Turbines , Propulsion Systems , State of the art , Technology forecasting , Helicopters , Symposia , Engine Components , Drives , Inlets , Automatic transmissions , Transmission gears , Compatibility , Airframes , Life cycle costs , Foreign technology
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