McKissock of NASA's Lewis Research Center provided valuable input to this paper; Mr. Hudson by performing analyses of the liquid metal Rankine turboalternator, heat transport loops, and boom structure; Dr. Pepping by supplying a satellite systems perspective in helping to define the ground rules for this study and by identifying the effects of the natural environment on the systems; Mr. Furgal by specifying the power conditioning equipment and transmission lines and developing mass and performance algorithms for them; and Ms. McKissock by providing mass algorithms for the Stirling engine, thermoelectric converter modules, heat transport loops, and liquid metal vapor separators. This work was performed at Sandia National Laboratories, which is operated for the U. S. Department of Energy under contract number DE-ACO4-6DPOO789. REFERENCES [1] D. Boyle, "Space Nuclear Power for Military Applications," Presentation to Air Force Nuclear Mission Advisory Board, Air Force Weapons Laboratory, January 24, 1989. [2] Concept Definition Phase Of The STAR-C Thermionic Power System For The Boost Surveillance And Tracking System, GA Technologies Report GA-C18676, January 1987. [3] D. R. Gallup, The Scalability of OTR Space Nuclear Power Systems, Sandia National Laboratories Report SAND90-0163, to be published. [4] TFE Verification Program Semiannual Report For The Period Ending April 30, 1989, GA Technologies Report GA-A19666, September 1989. [5] "SNAP/TFE VerificationfTopaz' Program Derivative Small Reactor Space Power Systems lOkWe/3okWe," Presentation to DOE/Air Force Small Reactor Committee, Space Power, Inc., October 21, 1987. [6] "Moderated In-Core Thermionic Space Reactors," Presentation to DOE/USAF Small Space Reactors Review Panel, GA Technologies, October 19, 1987. [7] SP-100 Project Integration Meeting (PIM), Viewgraph Presentation Volumes 1, 2, and 3, General Electric, July 19-21, 1988. [8] "AFWL Request For 10 kWe Point Design Flight Qualification Planning Information," Presentation to Air Force Space Technology Center, General Electric Astro Space, May 17, 1989. [9] Personal Communication, A. Marshall (Sandia National Laboratories) and B. McKissock (NASA Lewis Research Center), April 7, 1989. [10] See Pok Wong, William D. Jackson, William J. McKee, and E. J. Britt, "Low-voltage High Current Power Conditioning Module", AFWAL-TR-88-2019, Space Power Inc., June 1988. [11] A. Marshall, RSMASS: A Preliminary Reactor/Shield Mass Model For SDI Applications, Sandia National Laboratories Report SAND86-1020, August 1986. [12] A. Marshall, "Scaling Model For An Out-Of-Core Thermionic Power System," Sandia National Laboratories, Memo to L. Cropp, February 13, 1989. [13] A. Marshall, "Improvements To The STAR-C Model," Sandia National Laboratories, Memo to L Cropp, February 24, 1989.
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