Semantic Scholar Open Access 2024

E-Beam and Solar Thermal Driven Oxygen and Metal Production from Lunar Regolith

Moses Robert W. C. Sang H. Park Cheol Fay Catharine C.

Abstrak

NASA envisions commercial operations will start with production of tens of metric tons of oxygen per year but will evolve into hundreds to thousands of metric tons of a variety of commodities including oxygen, water, propellants, construction, and manufacturing feedstock. NASA also envisions that commercial lunar mining and processing systems will adhere to the principles of ethical and responsible use of space, especially those identified in “Moon to Mars Objectives” and “Artemis, Ethics and Society: Synthesis from a Workshop” publications. NASA published in 2021 a system concept that illustrates the separation of oxygen and metals from lunar regolith by combining an electron beam (E-beam) with concentrated sunlight. Herein, that system concept has been analyzed in more detail using the current state of the art in E-beam system technology, known dissociation properties of some materials

Penulis (4)

Moses Robert W.

C. Sang H.

Park Cheol

Fay Catharine C.

Format Sitasi

APA MLA BibTeX

W., M.R., H., C.S., Cheol, P., C., F.C. (2024). E-Beam and Solar Thermal Driven Oxygen and Metal Production from Lunar Regolith. https://doi.org/10.36959/422/469

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Informasi Jurnal

Tahun Terbit: 2024
Bahasa: en
Sumber Database: Semantic Scholar
DOI: 10.36959/422/469
Akses: Open Access ✓