Lunar Oxygen Plant
This plant is scaled to produce about 1000 metric tons of oxygen per year
by extracting it from lunar ilmenite using hydrogen reduction. This figure is
based on a design developed by Carbotek, Inc. In this conception, a
front-end loader scoops up lunar soil from an open pit mine. The soil is
carried by conveyor flights to a beneficiation plant, where the ilmenite
is magnetically concentrated. The concentrated ilmenite is fed into a fluidized
bed reactor, where the hydrogen extracts some of its oxygen as water.
The water is then broken down by electrolysis, the oxygen is captured and stored
cryogenically, and the hydrogen is recycled into the reactor. The unused portion
of the lunar soil and the slag waste from the reduction process is finally transported
to an old pit and used to fill it again.
To minimize the mining operation, the regolith should contain as much
ilmenite as possible and the ilmenite should also be in a form
(grain size and shape) which will allow concentration. Consequently, detailed
evaluation of the potential mine site may be necessary before mining operations
begin.
Artist: Pat Rawlings
Courtesy of Carbotek, Inc.
|
Curator: Al Globus If you find any errors on this page contact Al Globus. |
 |
This site was hosted by the NASA Ames Research Center from 1994-2018 and is now hosted by:
