The major elements of the Space Shuttle Main Propulsion System include two reusable solid rocket motors integrated into recoverable solid rocket boosters, an expendable external fuel and oxidizer tank, and three reusable Space Shuttle Main Engines. Both the solid rocket motors and space shuttle main engines ignite prior to liftoff, with the solid rocket boosters separating about two minutes into flight. The external tank separates, about eight and a half minutes into the flight, after main engine shutdown and is safely expended in the ocean. The SSME's, integrated into the Space Shuttle Orbiter aft structure, are reused after post landing inspections. The configuration is called a stage and a half as all the propulsion elements are active during the boost phase, with only the SSME s continuing operation to achieve orbital velocity. Design and performance challenges were numerous, beginning with development work in the 1970's. The solid rocket motors were large, and this technology had never been used for human space flight. The SSME s were both reusable and very high performance staged combustion cycle engines, also unique to the Space Shuttle. The multi body side mount configuration was unique and posed numerous integration and interface challenges across the elements. Operation of the system was complex and time consuming. This paper describes the design challenges and key areas where the design evolved during the program.
Shuttle Propulsion Overview - The Design Challenges
JANNAF 5th Spacecraft Propulsion Subcommittee Meeting
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2011
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Hutsville, AL, United States
JANNAF 8th Modeling and Simulation Subcommittee Meeting
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2011
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Hutsville, AL, United States
JANNAF 8th Modeling and Simulation Subcommittee Meeting JANNAF 6th Liquid Propulsion Subcommittee Meeting
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2011
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Hutsville, AL, United States
2011-12-05
Conference paper
No indication
English
Shuttle Propulsion Overview - The Design Challenges
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