DESIGN, MODELLING AND ANALYSIS OF SUPERSONIC PASSENGER TRANSPORT
In recent years new configurations for large commercial transport aircraft have been investigated to meet an increasing demand in international travel, particularly between major capital cities (hubs).
Supersonic Green Machine is one of two designs presented in April 2010 to the NASA Aeronautics Research Mission Directorate for its NASA Research Announcement funded studies into advanced supersonic cruise aircraft that could enter service in the 2030 2035 timeframe.
The green machine will also have Combustors to help to reduce the amount of nitrous oxide emission by 75%. The Green Machine will be able to reach speeds of 1,218 mph (1,960 Km/h) and would take 8 to 9 hours from the UK to Australia.
The purpose of this project to design the Supersonic green machine cad model from the conceptual design presented by NASA and examine the viscous, compressible and steady-state flow over the aircraft using computer simulation techniques. This project outlines the development of a computational mo
In recent years new configurations for large commercial transport aircraft have been investigated to meet an increasing demand in international travel, particularly between major capital cities (hubs).
Supersonic Green Machine is one of two designs presented in April 2010 to the NASA Aeronautics Research Mission Directorate for its NASA Research Announcement funded studies into advanced supersonic cruise aircraft that could enter service in the 2030 2035 timeframe.
The green machine will also have Combustors to help to reduce the amount of nitrous oxide emission by 75%. The Green Machine will be able to reach speeds of 1,218 mph (1,960 Km/h) and would take 8 to 9 hours from the UK to Australia.
The purpose of this project to design the Supersonic green machine cad model from the conceptual design presented by NASA and examine the viscous, compressible and steady-state flow over the aircraft using computer simulation techniques. This project outlines the development of a computational mo
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