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Electrolytic smelting of lunar rock for oxygen, iron, and siliconPreliminary studies of the electrochemical properties of silicate melts such as those available from heating of lunar mare soils indicate that conductivities are high enough for design of a practical electrolytic cell. The nature and kinetics of the electrode reactions, which involve reduction of Fe(++) and Si(IV) and oxidation of silicate anions as the primary, product-forming reactions, are also satisfactory. A survey of the efficiencies for production (amount of product for a given current) of O2, Fe(sup 0), and Si(sup 0) as functions of potential and of electrolyte composition indicate that conditions can be chosen to yield high production efficiencies. We also conclude that electronic conductivity does not occur to a significant extent. Based on these data, a cell with electrodes of 30 sq m in area operating between 1 and 5V with a current between 1.6 and 3.5(10)(exp 5) A for a mean power requirement of 0.54 MW and total energy use of approximately 13 MWhr per 24-hr day would produce 1 ton of O2, 0.81 ton of Fe(sup 0), 0.65 ton of Si(sup 0) (as Fe(sup 0)-Si(sup 0) alloy), and about 3.5 tons of silicate melt of altered composition per 24 hr. Adjustable distance between electrodes could offer flexibility with respect to feedstock and power source.
Document ID
19930004791
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Haskin, Larry A.
(Washington Univ. Saint Louis, MO, United States)
Colson, Russell O.
(Washington Univ. Saint Louis, MO, United States)
Lindstrom, David J.
(Washington Univ. Saint Louis, MO, United States)
Lewis, Robert H.
(Washington Univ. Saint Louis, MO, United States)
Semkow, Krystyna W.
(Washington Univ. Saint Louis, MO, United States)
Date Acquired
September 6, 2013
Publication Date
September 1, 1992
Publication Information
Publication: NASA. Johnson Space Center, The Second Conference on Lunar Bases and Space Activities of the 21st Century, Volume 2
Subject Category
Lunar And Planetary Exploration
Accession Number
93N13979
Funding Number(s)
CONTRACT_GRANT: NSF DAR-79-24705
CONTRACT_GRANT: NAG9-56
Distribution Limits
Public
Copyright
Work of the US Gov. Public Use Permitted.
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