Lunar South Pole space water extraction and trucking system

This concept proposes to use thermal processes alone to extract water from the lunar South Pole and launch payloads to low lunar orbit. Thermal steam rockets would use water propellant for space transportation. The estimated mass of a space water tanker powered by a nuclear heated steam rocket sugge...

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Bibliographic Details
Main Authors: Zuppero, A., Zupp, G., Schnitzler, B., Larson, T. K., Rice, J. W.
Other Authors: United States. Office of the Assistant Secretary for Nuclear Energy.
Format: Article in Journal/Newspaper
Language:English
Published: Idaho National Engineering and Environmental Laboratory 1998
Subjects:
21 Nuclear Power Reactors And Associated Plants
Nesdps Office Of Nuclear Energy Space And Defense Power Systems
Space Propulsion Reactors
Ice
Distillation
Melting
Process Heat Reactors
Moon
Bwr Type Reactors Nesdps Office Of Nuclear Energy Space And Defense Power Systems
Steam Generation
Launching
South Pole
South pole
Online Access:https://digital.library.unt.edu/ark:/67531/metadc708048/
Description
Summary:This concept proposes to use thermal processes alone to extract water from the lunar South Pole and launch payloads to low lunar orbit. Thermal steam rockets would use water propellant for space transportation. The estimated mass of a space water tanker powered by a nuclear heated steam rocket suggests it can be designed for launch in the Space Shuttle bay. The performance depends on the feasibility of a nuclear reactor rocket engine producing steam at 1,100 degrees Kelvin, with a power density of 150 Megawatts per ton of rocket, and operating for thousands of 20 minute cycles. An example uses reject heat from a small nuclear electric power supply to melt 17,800 tons per year of lunar ice. A nuclear heated steam rocket would use the propellant water to launch and deliver 3,800 tons of water per year to a 100 km low lunar orbit.

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