Fission technology can enable rapid, affordable access to any point in the solar system. If fission propulsion systems are to be developed to their full potential; however, near-term customers must be identified and initial fission systems successfully developed, launched, and operated. Studies conducted in fiscal year 2001 (IISTP, 2001) show that fission electric propulsion (FEP) systems operating at 80 kWe or above could enhance or enable numerous robotic outer solar system missions of interest. At these power levels it is possible to develop safe, affordable systems that meet mission performance requirements. In selecting the system design to pursue, seven evaluation criteria were identified: safety, reliability, testability, specific mass, cost, schedule, and programmatic risk. A top-level comparison of three potential concepts was performed: an SP-100 based pumped liquid lithium system, a direct gas cooled system, and a heatpipe cooled system. For power levels up to at least 500 kWt (enabling electric power levels of 125–175 kWe, given 25–35% power conversion efficiency) the heatpipe system has advantages related to several criteria and is competitive with respect to all. Hardware-based research and development has further increased confidence in the heatpipe approach. Successful development and utilization of a “Phase 1” fission electric propulsion system will enable advanced Phase 2 and Phase 3 systems capable of providing rapid, affordable access to any point in the solar system.
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14 January 2002
SPACE TECHNOLOGY AND APPLICATIONS INTERNATIONAL FORUM- STAIF 2002
3-6 Feb 2002
Albuquerque, New Mexico (USA)
Research Article|
January 14 2002
Phase 1 space fission propulsion system design considerations
Mike Houts;
Mike Houts
NASA MSFC, TD40, Marshall Space Flight Center, Alabama 35812
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Melissa Van Dyke;
Melissa Van Dyke
NASA MSFC, TD40, Marshall Space Flight Center, Alabama 35812
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Tom Godfroy;
Tom Godfroy
NASA MSFC, TD40, Marshall Space Flight Center, Alabama 35812
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Kevin Pedersen;
Kevin Pedersen
NASA MSFC, TD40, Marshall Space Flight Center, Alabama 35812
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James Martin;
James Martin
NASA MSFC, TD40, Marshall Space Flight Center, Alabama 35812
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Ricky Dickens;
Ricky Dickens
NASA MSFC, TD40, Marshall Space Flight Center, Alabama 35812
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Pat Salvail;
Pat Salvail
NASA MSFC, TD40, Marshall Space Flight Center, Alabama 35812
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Ivana Hrbud;
Ivana Hrbud
NASA MSFC, TD40, Marshall Space Flight Center, Alabama 35812
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Robert Carter
Robert Carter
NASA MSFC, TD40, Marshall Space Flight Center, Alabama 35812
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AIP Conf. Proc. 608, 589–595 (2002)
Citation
Mike Houts, Melissa Van Dyke, Tom Godfroy, Kevin Pedersen, James Martin, Ricky Dickens, Pat Salvail, Ivana Hrbud, Robert Carter; Phase 1 space fission propulsion system design considerations. AIP Conf. Proc. 14 January 2002; 608 (1): 589–595. https://doi.org/10.1063/1.1449776
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