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Americium fuelled radioisotope stirling generator for lunar surface mobility systems

Ramy Mesalam, Paul Schmitz, Hannah Sargeant, Elizabeth Turnbull, Alessandra Barco, Scott D. Wilson, Jesse Stuck, Emily Jane Watkinson, Steven R. Oleson, Richard Ambrosi

2024Acta Astronautica9 citationsDOIOpen Access PDF

Abstract

Abstract Radioisotope Power Systems (RPS) are an invaluable resource for the exploration of our Solar System. Providing both heat and electricity, spacecraft using RPS can operate where it is impractical to use solar arrays and/or battery systems because of either limited solar illumination or mission durations which make a standalone battery impractical. Dynamic Radioisotope Power System (DRPS) have been designed using the decay of Plutonium-238 ( 238 Pu) in the form of the General-Purpose Heat Source (GPHS) coupled with Stirling convertors, and Stirling-based generator technologies are being developed by NASA's RPS Program in an effort to realize high efficiency RPS. This paper describes the development of a new generator design based upon the European Large Heat Source (ELHS). The ELHS uses Americium-241 ( 241 Am) rather than 238 Pu as the heat producing isotope. The ELHS dimensions and shapes were optimized for use with thermoelectric power conversion and are different compared to a Step-2 GPHS Module, which impact implementation into the DRPS generator design. This ELHS-DRPS design assumes that the ELHS would be coupled to the same Stirling convertors under development for existing GPHS-based DRPS designs. Trades are performed on the number of convertors, fin lengths, housing configuration and hot-end temperature. Finally, this ELHS-DRPS design is compared with the existing GPHS-DRPS generator design completed by Aerojet Rocketdyne, along with the advantages and disadvantages of using americium as a heat source for RPS. • The European 200 W th Americium-241 heat source can be thermally matched with NASA's robust stirling convectors. • An Americium-241 fuelled radioisotope stirling generator can achieve a specific power of around ∼2 W e kg −1 . • An Americium-241 fuelled radioisotope stirling generator can enable Lunar surface mobility systems in accessing extreme environments and region on the Moon.

Topics & Concepts

Stirling engineStirling cycleGenerator (circuit theory)Aerospace engineeringEnvironmental scienceNuclear engineeringComputer sciencePhysicsEngineeringMechanical engineeringPower (physics)ThermodynamicsChemical Synthesis and CharacterizationPlanetary Science and ExplorationNuclear materials and radiation effects
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