Two V/STOL propulsion concepts were evaluated in a common aircraft configuration. One propulsion system consists of cross coupled turboshaft engines driving variable pitch fans. The other system is a gas coupled combination of turbojet gas generators and tip turbine fixed pitch fans. Evaluations were made of endurance at low altitude, low speed loiter with equal takeoff fuel loads. Effects of propulsion system sizing, bypass ratio, and aircraft wing planform parameters were investigated and compared. Shaft driven propulsion systems appear to result in better overall performance, although at higher installed weight, than gas systems
Modern high speed propeller (advanced turboprop) aircraft are expected to operate on 50 to 60 percen...
A conceptual design analysis is performed on a single engine V/STOL supersonic fighter/attack concep...
A baseline supersonic STOVL ejector aircraft, its propulsion and typical operating modes is describe...
Typical ejector wing, remote fan-in-wing, remote lift/cruise fan, and lift plus lift/cruise propulsi...
The performance of lower speed, 5 foot diameter model general aviation propellers, was tested in the...
Concept design is presented for two types of lift/cruise fan technology V/STOL aircraft, turbotip fa...
Wind tunnel test support, aircraft contractor support, a propulsion system computer card deck, preli...
In anticipation of an eventual VTOL requirement for civil aviation, NASA has been conducting studies...
Technology flight vehicles were defined for three different approaches which demonstrate the concept...
Low speed wind tunnel performance tests of two advanced propellers were completed. The 62.2 cm diame...
Tests were conducted in a full scale tunnel to determine the low speed aerodynamic characteristics o...
A conceptual design study compared a selected propfan-powered aircraft to a turbofan-powered aircraf...
The goal of the propulsion community is to have the enabling propulsion technologies in place to per...
Evaluation of air generator-remote lift fan propulsion system for VTOL transport
A candidate V/STOL research aircraft concept which uses an S-3A airframe and two Pegasus 11 engines ...
Modern high speed propeller (advanced turboprop) aircraft are expected to operate on 50 to 60 percen...
A conceptual design analysis is performed on a single engine V/STOL supersonic fighter/attack concep...
A baseline supersonic STOVL ejector aircraft, its propulsion and typical operating modes is describe...
Typical ejector wing, remote fan-in-wing, remote lift/cruise fan, and lift plus lift/cruise propulsi...
The performance of lower speed, 5 foot diameter model general aviation propellers, was tested in the...
Concept design is presented for two types of lift/cruise fan technology V/STOL aircraft, turbotip fa...
Wind tunnel test support, aircraft contractor support, a propulsion system computer card deck, preli...
In anticipation of an eventual VTOL requirement for civil aviation, NASA has been conducting studies...
Technology flight vehicles were defined for three different approaches which demonstrate the concept...
Low speed wind tunnel performance tests of two advanced propellers were completed. The 62.2 cm diame...
Tests were conducted in a full scale tunnel to determine the low speed aerodynamic characteristics o...
A conceptual design study compared a selected propfan-powered aircraft to a turbofan-powered aircraf...
The goal of the propulsion community is to have the enabling propulsion technologies in place to per...
Evaluation of air generator-remote lift fan propulsion system for VTOL transport
A candidate V/STOL research aircraft concept which uses an S-3A airframe and two Pegasus 11 engines ...
Modern high speed propeller (advanced turboprop) aircraft are expected to operate on 50 to 60 percen...
A conceptual design analysis is performed on a single engine V/STOL supersonic fighter/attack concep...
A baseline supersonic STOVL ejector aircraft, its propulsion and typical operating modes is describe...