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Vibration Testing of Stirling Power ConvertorsThe NASA John H. Glenn Research Center (GRC) and the U.S. Department of Energy (DOE) are currently developing a high efficient, long life, free piston Stirling convertor for use as an advanced spacecraft power system for future NASA missions. As part of this development, a Stirling Technology Demonstrator Convertor (TDC), developed by Stirling Technology Company (STC) for DOE, was vibration tested at GRC s Structural Dynamics Laboratory (SDU7735) in November- December 1999. This testing demonstrated that the Stirling TDC is able to withstand the harsh random vibration (20 to 2000 Hertz) seen during a typical spacecraft launch and survive with no structural damage or functional power performance degradation, thereby enabling its usage in future spacecraft power systems. The Stirling Vibration Test Team at NASA GRC and STC personnel conducted tests on a single 55 electric watt TDC. The purpose was to characterize the TDC s structural response to vibration and determine if the TDC could survive the vibration criteria established by the Jet Propulsion Laboratory (JPL) for launch environments. The TDC was operated at full-stroke and full power conditions during the vibration testing. The TDC was tested in two orientations, with the direction of vibration parallel and perpendicular to the TDC s moving components (displacer and piston). The TDC successfully passed a series of sine and random vibration tests. The most severe test was a 12.3 Grms random vibration test (peak vibration level of 0.2 g2/Hz from 50 to 250 Hertz) with test durations of 3 minutes per axis. The random vibration test levels were chosen to simulate, with margin, the maximum anticipated launch vibration conditions. As a result of this very successful vibration testing and successful evaluations in other key technical readiness areas, the Stirling power system is now considered a viable technology for future application for NASA spacecraft missions. Possible usage of the Stirling power system would be to supply on- board electric spacecraft power for future NASA Deep-Space Missions, performing as an attractive alternative to Radioisotope Thermoelectric Generators (RTG). Usage of the Stirling technology is also being considered as the electric power source for future Mars rovers, whose mission profiles may exclude the use of photovoltaic power systems (such as exploring at high Martian latitudes or for missions of lengthy durations). GRC s Thermo-Mechanical Systems Branch (5490) provides Stirling technology expertise under a Space Act Agreement with the DOE. Additional vibration testing, by GRC s Structural Systems Dynamics Branch (7733, is planned to continue to demonstrate the Stirling power system s vibration capability as its technology and flight system designs progress.
Document ID
20030113128
Acquisition Source
Glenn Research Center
Document Type
Conference Paper
Authors
Hughes, Bill
(NASA Glenn Research Center Cleveland, OH, United States)
Goodnight, Thomas
(NASA Glenn Research Center Cleveland, OH, United States)
McNelis, Mark E.
(NASA Glenn Research Center Cleveland, OH, United States)
Suarez, Vicente J.
(NASA Glenn Research Center Cleveland, OH, United States)
Schreiber, Jeff
(NASA Glenn Research Center Cleveland, OH, United States)
Samorezov, Sergey
(NASA Glenn Research Center Cleveland, OH, United States)
Date Acquired
August 21, 2013
Publication Date
January 1, 2003
Subject Category
Spacecraft Propulsion And Power
Meeting Information
Meeting: AIAA/ICAS International Air and Space Symposium and Exposition: The Next 100 Years
Location: Dayton, OH
Country: United States
Start Date: July 14, 2003
End Date: July 17, 2003
Sponsors: American Inst. of Aeronautics and Astronautics, International Council of the Aeronautical Sciences
Funding Number(s)
WBS: WBS 22-979-30-01
Distribution Limits
Public
Copyright
Work of the US Gov. Public Use Permitted.

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