Add to ORKGA preliminary study was made of the feasibility of three cycles for nuclear propulsion of aircraft: a direct-air-turbojet, a binary liquid-metal turbojet, and a helium compressor jet. All three cycles appeared feasible for flight at a Mach number of 0.9 and altitudes up to 50,000 feet; the liquid-metal cycle appeared feasible for flight at a Mach number of 1.5. The air and helium cycles resulted in heavier aircraft than did the liquid-metal cycle, particularly at a Mach number of 1.5. The relative advantage of the liquid-metal cycle became greater as the flight speed and altitude increased, and as the reactor wall temperature decreased
This paper discusses research and development effort on a direct-cycle air-cooled nuclear reactor an...
A study of unconventional engine cycle concepts, which may offer significantly lower energy consumpt...
Concepts for possible future airplanes are studied that include all-wing distributed-load airplanes,...
A topping-cycle aircraft engine system which uses a cryogenic fuel was investigated. This system con...
An analytical investigation was made of a topping cycle aircraft engine system which uses a cryogeni...
Analysis indicates that, in order to achieve supersonic flight with nuclear powered aircraft, a reac...
This study has investigated the feasibility of installing a gas generator-free turbine type power pl...
The Air Force and NASA share a common interest in developing advanced propulsion systems for commerc...
Calculated performance of a mercury-compressor- jet powered aircraft using nuclear reactor as energy...
Hydrogen turbopump cycles for obtaining high engine inlet pressures in advanced nuclear rockets, and...
The three engine programs that constitute the propulsion portion of NASA's Aircraft Energy Efficienc...
This study had the objectives of determining the most promising conventional and variable cycle engi...
A thorough redesign of the aircraft industry is needed to cope with diminishing fossil fuel reserves...
An analytical investigation was made of two supersonic interceptor type airplanes to determine the m...
Potential feasibility of safe, practical, and economical air breathing nuclear propulsion system for...
This paper discusses research and development effort on a direct-cycle air-cooled nuclear reactor an...
A study of unconventional engine cycle concepts, which may offer significantly lower energy consumpt...
Concepts for possible future airplanes are studied that include all-wing distributed-load airplanes,...
A topping-cycle aircraft engine system which uses a cryogenic fuel was investigated. This system con...
An analytical investigation was made of a topping cycle aircraft engine system which uses a cryogeni...
Analysis indicates that, in order to achieve supersonic flight with nuclear powered aircraft, a reac...
This study has investigated the feasibility of installing a gas generator-free turbine type power pl...
The Air Force and NASA share a common interest in developing advanced propulsion systems for commerc...
Calculated performance of a mercury-compressor- jet powered aircraft using nuclear reactor as energy...
Hydrogen turbopump cycles for obtaining high engine inlet pressures in advanced nuclear rockets, and...
The three engine programs that constitute the propulsion portion of NASA's Aircraft Energy Efficienc...
This study had the objectives of determining the most promising conventional and variable cycle engi...
A thorough redesign of the aircraft industry is needed to cope with diminishing fossil fuel reserves...
An analytical investigation was made of two supersonic interceptor type airplanes to determine the m...
Potential feasibility of safe, practical, and economical air breathing nuclear propulsion system for...
This paper discusses research and development effort on a direct-cycle air-cooled nuclear reactor an...
A study of unconventional engine cycle concepts, which may offer significantly lower energy consumpt...
Concepts for possible future airplanes are studied that include all-wing distributed-load airplanes,...