en SP-100

SP-100 (Space reactor Prototype^[1]) was a U.S. research program for nuclear fission reactors usable as small fission power systems for spacecraft.^[2] It was started in 1983 by NASA, the US Department of Energy and other agencies.^[3]

A reactor was developed with heat pipes transporting the heat to thermoelectric generators. It was cooled with lithium.^[4] The project never advanced to flight hardware and was terminated in 1994.^[5]

References

^ Acronyms: SP-100 means Space reactor prototype
^ "SP-100 Advanced Technology Program". NASA. Retrieved Oct 27, 2024.
^ SP-100, the US Space Nuclear Reactor Power Program, Technical information report. Available at Energy Citations Database
^ Stănculescu, Adrian (2005). The Role of Nuclear Power and Nuclear Propulsion in the Peaceful Exploration (PDF). Vienna: International Atomic Energy Agency. pp. 21–22. ISBN 92-0-107404-2. Retrieved 2009-02-24.
^ Mason, Lee; Bailey, Sterling; Bechtel, Ryan; Elliott, John; Fleurial, Jean-Pierre; Houts, Mike; Kapernick, Rick; Lipinski, Ron; MacPherson, Duncan; Moreno, Tom; Nesmith, Bill; Poston, Dave; Qualls, Lou; Radel, Ross; Weitzberg, Abraham; Werner, Jim (18 November 2010). "Small Fission Power System Feasibility Study — Final Report". NASA/DOE. Retrieved 3 October 2015. The SP-100 program objective was to develop the technologies needed for a broad range of space missions requiring a high power-to-weight ratio with nominal 100 kWe power output. The program began in 1982 and was terminated by Congress in 1994. A high temperature (1350 K) refractory alloy heat transport system with thermoelectric power conversion was designed, uranium nitride fuel was fabricated and irradiated to 6% burnup, and significant amounts of hardware and electronics were successfully tested.

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[1] Acronyms: SP-100 means Space reactor prototype

[2] "SP-100 Advanced Technology Program". NASA. Retrieved Oct 27, 2024.

[3] SP-100, the US Space Nuclear Reactor Power Program, Technical information report. Available at Energy Citations Database

[IAEA-4] Stănculescu, Adrian (2005). The Role of Nuclear Power and Nuclear Propulsion in the Peaceful Exploration (PDF). Vienna: International Atomic Energy Agency. pp. 21–22. ISBN 92-0-107404-2. Retrieved 2009-02-24.

[nasa/doe2010-5] Mason, Lee; Bailey, Sterling; Bechtel, Ryan; Elliott, John; Fleurial, Jean-Pierre; Houts, Mike; Kapernick, Rick; Lipinski, Ron; MacPherson, Duncan; Moreno, Tom; Nesmith, Bill; Poston, Dave; Qualls, Lou; Radel, Ross; Weitzberg, Abraham; Werner, Jim (18 November 2010). "Small Fission Power System Feasibility Study — Final Report". NASA/DOE. Retrieved 3 October 2015. The SP-100 program objective was to develop the technologies needed for a broad range of space missions requiring a high power-to-weight ratio with nominal 100 kWe power output. The program began in 1982 and was terminated by Congress in 1994. A high temperature (1350 K) refractory alloy heat transport system with thermoelectric power conversion was designed, uranium nitride fuel was fabricated and irradiated to 6% burnup, and significant amounts of hardware and electronics were successfully tested.

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SP-100

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References