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Providing Oxygen for the Crew of a Lunar OutpostOxygen (O2) is obviously essential for human space missions, but it is important to examine all the different ways it will be used and the potential sources that it may come from. This effort will lead to storage and delivery requirements and help to determine the optimum architecture from an overall systems engineering point of view. Accounting for all the oxygen in a Lunar Outpost mission includes meeting the metabolic needs of the crew while in the surface Habitat, leakage through the Habitat or Pressurized Rover walls, recharge of the space suit backpack and emergency situations. Current plans indicate that both primary and secondary O2 bottles for the space suit will be filled to a pressure of 20.7 MPa (3000 psia). Other uses of O2 require much lower pressure. Sources of O2 at a Lunar Outpost include compressed or liquefied O2 brought along specifically for life support, scavenged O2 from the Lander propulsion system, recovered O2 from waste water or exhaled carbon dioxide and O2 mined from the moon itself. Previously, eight technology options were investigated to provide the high pressure space suit O2. High pressure O2 storage was treated as the baseline technology and compared to the other seven. The other seven were cryogenic storage followed by high pressure vaporization, scavenging liquid oxygen (LOX) from Lander followed by vaporization, LOX delivery followed by sorption compression, low pressure water electrolysis followed by mechanical compression, high pressure water electrolysis, sharing a high pressure electrolyzer with a regenerative fuel cell power system, and making use of In- Situ Resource Utilization (ISRU). This system-level analysis was conducted by comparing equivalent system mass of the eight technologies in open and closed loop life support architectures. The most promising high pressure O2 generation technologies were recommended for development. Updates and an expansion of the earlier study have been made and the results are reported in this paper. Examples of recent analyses include feasibility of recovering space suit purge O2 in a Pressurized Rover and using sub-critical LOX for primary supply while using high-pressure gaseous O2 as the secondary supply for the space-suit. Preliminary analysis on scavenging LOX from the Lander and delivering it to the Habitat has also been incorporated into this integrated lunar fluids analysis
Document ID
20090013081
Acquisition Source
Johnson Space Center
Document Type
Conference Paper
Authors
Ewert, Michael K.
(NASA Johnson Space Center Houston, TX, United States)
Jeng, Frank
(Jacobs Technologies Engineering Science Contract Group Houston, TX, United States)
Conger, Bruce
(Jacobs Technologies Engineering Science Contract Group Houston, TX, United States)
Anderson, Molly S.
(NASA Johnson Space Center Houston, TX, United States)
Date Acquired
August 24, 2013
Publication Date
January 1, 2009
Subject Category
Man/System Technology And Life Support
Report/Patent Number
JSC-CN-18742
JSC-CN-17889
Report Number: JSC-CN-18742
Report Number: JSC-CN-17889
Meeting Information
Meeting: Space 2009
Location: Pasadena, CA
Country: United States
Start Date: September 14, 2009
End Date: September 17, 2009
Sponsors: American Inst. of Aeronautics and Astronautics
Funding Number(s)
OTHER: 439906
Distribution Limits
Public
Copyright
Public Use Permitted.
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