Difference between revisions of "Magma electrolysis"
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| − | '''Magma electrolysis''' is one proposed method of producing[[LUNOX | oxygen]] from lunar materials. In its simplest form, the method consists of melting the lunar regolith and passing an electric current through the melt, liberating oxygen at one electrode and [[Reduction | reducing] the material to a lower oxidation state at the other. A ''flux'' material is typically used to reduce the melting temperature of lunar soil, however, the process temperatures for magma reduction are nevertheless typically in the range 1300-1400 C (ref: [http://www.lpi.usra.edu/meetings/leag2005/pdf/2042.pdf Gimmett 2005]) | + | '''Magma electrolysis''' is one proposed method of producing [[LUNOX | oxygen]] from lunar materials. In its simplest form, the method consists of melting the lunar regolith and passing an electric current through the melt, liberating oxygen at one electrode and [[Reduction | reducing]] the material to a lower oxidation state at the other. A ''flux'' material is typically used to reduce the melting temperature of lunar soil, however, the process temperatures for magma reduction are nevertheless typically in the range 1300-1400 C (ref: [http://www.lpi.usra.edu/meetings/leag2005/pdf/2042.pdf Gimmett 2005]) |
| − | Significant experimental work on the process has been done by Dr. Edward McCullough at Boeing. (Ref. McCullough and Mariz, "Lunar Oxygen Production via Magma Electrolysis", ''Proc. Space-90 Engineering, Construction, and Operations in Space'', Albuquerque, New Mexico, 22-26 April 1990, pp. | + | Significant experimental work on the process has been done by Dr. Edward McCullough at Boeing. (Ref. McCullough and Mariz, "Lunar Oxygen Production via Magma Electrolysis", ''Proc. Space-90 Engineering, Construction, and Operations in Space'', Albuquerque, New Mexico, 22-26 April 1990, pp. 347-356) |
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*[[LUNOX]] | *[[LUNOX]] | ||
*[[Reduction]] | *[[Reduction]] | ||
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| + | {{Stub}}More information about magma electrolysis can be found at:Oxygen From the Lunar Soil by Molten Silicate Electrolysis by Russell O. Colson and Larry A. Haskin | ||
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| + | http://www.nss.org/settlement/nasa/spaceresvol3/oflsmse1.htm | ||
==External Links== | ==External Links== | ||
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[[Category:Chemistry]] | [[Category:Chemistry]] | ||
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Latest revision as of 16:23, 30 April 2012
Magma electrolysis is one proposed method of producing oxygen from lunar materials. In its simplest form, the method consists of melting the lunar regolith and passing an electric current through the melt, liberating oxygen at one electrode and reducing the material to a lower oxidation state at the other. A flux material is typically used to reduce the melting temperature of lunar soil, however, the process temperatures for magma reduction are nevertheless typically in the range 1300-1400 C (ref: Gimmett 2005)
Significant experimental work on the process has been done by Dr. Edward McCullough at Boeing. (Ref. McCullough and Mariz, "Lunar Oxygen Production via Magma Electrolysis", Proc. Space-90 Engineering, Construction, and Operations in Space, Albuquerque, New Mexico, 22-26 April 1990, pp. 347-356)
Links
| This article is a stub. You can help Lunarpedia by expanding it or sorting it into the correct stub subcategory. |
More information about magma electrolysis can be found at:Oxygen From the Lunar Soil by Molten Silicate Electrolysis by Russell O. Colson and Larry A. Haskin
http://www.nss.org/settlement/nasa/spaceresvol3/oflsmse1.htm
External Links
- lunar oxygen process sequence discussion from Knudson and Gibson (1989) (note: a good summary of approaches, but somewhat out of date)
- Magma electrolysis sequence proposed by David Dietzler
- LLOX automated production summary (1990)
- Colson and Haskin paper on Magma electrolysis, 1991
