A combined Nuclear Thermal Rocket (NTR) flight test and Mars Sample Return mission (MSR) is explored as a means of 'jump-starting' NTR development. Development of a small-scale engine with relevant fuel and performance could more affordably and quickly 'pathfind' the way to larger scale engines. A flight test with subsequent inflight postirradiation evaluation may also be more affordable and expedient compared to ground testing and associated facilities and approvals. Mission trades and a reference scenario based upon a single expendable launch vehicle (ELV) are discussed. A novel 'single stack' spacecraft/lander/ascent vehicle concept is described configured around a 'top-mounted' downward firing NTR, reusable common tank, and 'bottom-mount' bus, payload and landing gear. Requirements for a hypothetical NTR engine are described that would be capable of direct thermal propulsion with either hydrogen or methane propellant, and modest electrical power generation during cruise and Mars surface insitu resource utilization (ISRU) propellant production.
Mars Sample Return and Flight Test of a Small Bimodal Nuclear Rocket and ISRU Plant
2014
3 pages
Report
No indication
English
Rocket Mining for Lunar and Mars ISRU
Springer Verlag | 2023
|Springer Verlag | 2018
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