Add to ORKGNASA s Fundamental Aeronautics Program is investigating turbine-based propulsion systems for access to space because it provides the potential for aircraft-like, space-launch operations that may significantly reduce launch costs and improve safety. Studies performed under NASA s NGLT and the NASP High Speed Propulsion Assessment (HiSPA) program indicated a variable cycle turbofan/ramjet was the best configuration to satisfy access-to-space mission requirements because this configuration maximizes the engine thrust-to-weight ratio while minimizing frontal area. To this end, NASA and GE teamed to design a Mach 4 variable cycle turbofan/ramjet engine for access to space. To enable the wide operating range of a Mach 4+ variable cycle turbofan r...
A single stage fan and quarter stage booster were designed for the energy efficient engine. The fan ...
An isolated 1.15 pressure ratio turbofan engine simulator was tested at Mach numbers from 0.6 to 0.8...
Meeting NASA's N+3 goals requires a fundamental shift in approach to aircraft and engine design. Mat...
NASA and GE teamed to design and build a 57 percent engine scaled fan stage for a Mach 4 variable cy...
NASA's Environmentally Responsible Aviation (ERA) Program calls for investigation of the technology ...
A research plan is being implemented at NASA to investigate inlet mode transition for turbine-based ...
Aggressive design goals have been set for future aero-propulsion systems with regards to fuel econom...
The fan configuration for the general Electric/NASA Energy Efficient Engine was selected following a...
The concept of a variable cycle turbofan engine with an axially supersonic fan stage as powerplant f...
A two-stage research fan was tested to provide technology for designing a turbofan engine for an adv...
Advanced, large commercial turbofan engines using low-fan-pressure-ratio, very high bypass ratio the...
A two-stage, highly-loaded fan was designed to deliver an overall pressure ratio of 2.8 with an adia...
Tests were conducted on a 0.5 hub/tip ratio, single-stage fan-compressor designed to produce a press...
NASA is interested in developing technology that leads to more routine, safe, and affordable access ...
Engine performance and mission studies were carried out for turbofan engines equipped with supersoni...
A single stage fan and quarter stage booster were designed for the energy efficient engine. The fan ...
An isolated 1.15 pressure ratio turbofan engine simulator was tested at Mach numbers from 0.6 to 0.8...
Meeting NASA's N+3 goals requires a fundamental shift in approach to aircraft and engine design. Mat...
NASA and GE teamed to design and build a 57 percent engine scaled fan stage for a Mach 4 variable cy...
NASA's Environmentally Responsible Aviation (ERA) Program calls for investigation of the technology ...
A research plan is being implemented at NASA to investigate inlet mode transition for turbine-based ...
Aggressive design goals have been set for future aero-propulsion systems with regards to fuel econom...
The fan configuration for the general Electric/NASA Energy Efficient Engine was selected following a...
The concept of a variable cycle turbofan engine with an axially supersonic fan stage as powerplant f...
A two-stage research fan was tested to provide technology for designing a turbofan engine for an adv...
Advanced, large commercial turbofan engines using low-fan-pressure-ratio, very high bypass ratio the...
A two-stage, highly-loaded fan was designed to deliver an overall pressure ratio of 2.8 with an adia...
Tests were conducted on a 0.5 hub/tip ratio, single-stage fan-compressor designed to produce a press...
NASA is interested in developing technology that leads to more routine, safe, and affordable access ...
Engine performance and mission studies were carried out for turbofan engines equipped with supersoni...
A single stage fan and quarter stage booster were designed for the energy efficient engine. The fan ...
An isolated 1.15 pressure ratio turbofan engine simulator was tested at Mach numbers from 0.6 to 0.8...
Meeting NASA's N+3 goals requires a fundamental shift in approach to aircraft and engine design. Mat...