The Naval Reactors (NR) Program and its DOE Laboratories, KAPL and Bettis, were assigned responsibility to develop space reactor systems for the Prometheus Program. After investigating all of the potential reactor and energy conversion options, KAPL and Bettis selected a direct gas Brayton system as the reference approach for the nuclear electric propulsion missions, including the Jupiter Icy Moons Orbiter (JIMO). In order to determine the optimal plant architecture for the direct gas system, KAPL and Bettis investigated systems with one or two active Brayton units and up to two spare units. No final decision was made on the optimal system configuration for the NEP gas‐Brayton system prior to closeout of the project. The two most promising options appear to be a single system without spares and a three Brayton system with two operating units, each producing half of the required load, with a single spare unit. The studies show that a single Brayton system, without spares, offers the lowest mass system, with potential for lower operating temperature, and a minimum of system and operational complexity. The lower required mass and increased system efficiency inherent in the single Brayton system may be exploited to satisfy other design objectives such as reduced reactor and radiator operating temperatures. While Brayton system lifetimes applicable to a JIMO or other nuclear electric propulsion (NEP) mission have not been demonstrated, there is no fundamental limit on the lifetime of the Brayton hardware. Use of additional Brayton units with installed spares will allow for continued operation in the event of a failure of an individual Brayton unit. However, preliminary system reliability evaluations do not point to any substantial reliability benefit provided by carrying spare Brayton units. If a spare unit is used, operating two of the units at full power with an unpowered spare proved more efficient than operating all three units at a reduced power and temperature. Linking two Brayton units to a single recuperator and gas cooler was also investigated as a mass saving approach, but led to little mass savings relative to the increased operational complexity.
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30 January 2007
SPACE TECHNOLOGY AND APPLICATIONS INTERNATIONAL FORUM-STAIF 2007: 11th Conf Thermophys.Applic.in Micrograv.; 24th Symp Space Nucl.Pwr.Propulsion; 5th Conf Hum/Robotic Techn & Vision Space Explor.; 5th Symp Space Coloniz.; 4th Symp New Frontrs & Future Con
11-15 February 2007
Albuquerque, New Mexico (USA)
Research Article|
January 30 2007
Key Factors Influencing the Decision on the Number of Brayton Units for the Prometheus Space Reactor
John Ashcroft;
John Ashcroft
1Lockheed Martin KAPL Inc., Schenectady, NY
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Sean Belanger;
Sean Belanger
1Lockheed Martin KAPL Inc., Schenectady, NY
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Wayne Burdge;
Wayne Burdge
1Lockheed Martin KAPL Inc., Schenectady, NY
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Eric Clementoni;
Eric Clementoni
2Bechtel Bettis, West Mifflin, PA
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Krista Jensen;
Krista Jensen
1Lockheed Martin KAPL Inc., Schenectady, NY
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N. Beth Proctor;
N. Beth Proctor
1Lockheed Martin KAPL Inc., Schenectady, NY
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Annie Zemo‐Fulkerson
Annie Zemo‐Fulkerson
2Bechtel Bettis, West Mifflin, PA
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AIP Conf. Proc. 880, 522–540 (2007)
Citation
John Ashcroft, Sean Belanger, Wayne Burdge, Eric Clementoni, Krista Jensen, N. Beth Proctor, Annie Zemo‐Fulkerson; Key Factors Influencing the Decision on the Number of Brayton Units for the Prometheus Space Reactor. AIP Conf. Proc. 30 January 2007; 880 (1): 522–540. https://doi.org/10.1063/1.2437491
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