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Conceptual design of a 500 watt solar AMTEC space power system

Conference ·
OSTI ID:163417
;  [1]; ;  [2];  [3]
  1. Advanced Modular Power Systems, Inc., Ann Arbor, MI (United States)
  2. Rockwell International, Canoga Park, CA (United States). Rocketdyne Division
  3. Air Force Phillips Lab., Kirtland AFB, NM (United States)
+ Show Author Affiliations

Numerous design studies have been completed on Radioisotope powered Alkali Metal Thermal to Electric Converter (RAMTEC) power systems demonstrating their substantial increase in performance. Prior to recent advances in AMTEC technology and Thermal Energy Storage (TES), coupling AMTEC converters with a solar concentrator did not increase the performance of solar powered space power systems. This paper describes a conceptual design of an innovative, low cost, reliable, low mass, long life 500 watt Solar AMTEC (SAMTEC) power system, and the predicted system performance. The concept uses innovative, high voltage AMTEC cells, each containing 7 to 9 small electrolyte tubes, integrated with an individual TES unit. These multi-tube AMTEC cells are identical to the AMTEC cells designed for radioisotope powered systems. The TES used in this conceptual design is the LiF-22%CaF{sub 2} unit currently being developed at NASA Lewis Research Center (LeRC) for the Solar Dynamic Ground Test Demonstration (SDGTD) Program. The system was designed to provide 500 watts of electrical power at 28 volts to a payload in Low Earth Orbit (LEO, 800 km, 28.5{degree} inclination) for a minimum lifetime of 5 years. The SAMTEC power system is predicted to have a specific power k of 5.3 to 8.9 W(e)/kg (including the concentrator, receiver, AMTEC cells, gimbals and drives, structure, power processing and control, and a 30% mass contingency) at the 500 watt power level, and 12 to 17 W(e)/kg at the 5,000 watt power level. The SAMTEC system, including all of the components listed above, is anticipated to cost $1,000/W(e) once development is complete and production begins. The SAMTEC system provides 92% of its Beginning of Life (BOL) power after a 5 year period in LEO, and SAMTEC systems should provide 10 to 15 years of life in LEO. Current AMTEC cells have demonstrated 18% efficiency in the laboratory and have been heated radiatively, with propane flames and electrical resistance heaters.

OSTI ID:
163417
Report Number(s):
CONF-950729--
Country of Publication:
United States
Language:
English

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Related Subjects

14 SOLAR ENERGY
CALCIUM FLUORIDES
COST
DESIGN
LITHIUM FLUORIDES
NESDPS Office of Nuclear Energy Space and Defense Power Systems
SERVICE LIFE
SOLAR CONCENTRATORS
SOLAR RECEIVERS
SOLAR THERMAL POWER PLANTS
SPACECRAFT POWER SUPPLIES
SPECIFICATIONS
THERMAL EFFICIENCY
THERMAL ENERGY STORAGE EQUIPMENT